/*++ Copyright (c) 1995-1998 Microsoft Corporation Module Name: esp.c Abstract: This module contains Author: Dan Knudson (DanKn) 18-Sep-1995 Revision History: Notes: 1. Regarding the SP filling in structures with variable length fields (dwXxxSize/dwXxxOffset) : "The SP's variable size fields start immediately after the fixed part of the data structure. The order of filling of the variable size fields owned by the SP is not specified. The SP can fill them in any order it desires. Filling should be contiguous, starting at the beginning of the variable part." (Taken from Chapter 2 of the SPI Programmer's Guide.) --*/ #include "stdarg.h" #include "stdio.h" #include "stdlib.h" //#include "malloc.h" #include "string.h" #include "esp.h" #include "devspec.h" #include "vars.h" #include #define ASSERT_SANITYCHECK _ASSERT( \ (*gpdwSanityCheckKeyword == SANITYCHECKKEYWORD) &&\ (gESPGlobals.dwSanityCheckKeyword0 == SANITYCHECKKEYWORD) &&\ (gESPGlobals.dwSanityCheckKeyword1 == SANITYCHECKKEYWORD) &&\ (gESPGlobals.dwSanityCheckKeyword2 == SANITYCHECKKEYWORD) &&\ (gESPGlobals.dwSanityCheckKeyword3 == SANITYCHECKKEYWORD) &&\ (gESPGlobals.pLines ? (gESPGlobals.pLines->dwNumTotalEntries == gESPGlobals.dwInitialNumLines + DEF_NUM_EXTRA_LOOKUP_ENTRIES) :1)&&\ (gESPGlobals.pPhones ? (gESPGlobals.pPhones->dwNumTotalEntries == gESPGlobals.dwInitialNumPhones + DEF_NUM_EXTRA_LOOKUP_ENTRIES) :1)\ ) #define MAX_NUM_PARKED_CALLS 16 LONG glNextRequestResult = 0; DWORD gdwNextRequestCompletionType; DWORD gdwDevSpecificRequestID; DWORD gdwCallID = 0; BOOL gbExitPBXThread; BOOL gbDisableUI; BOOL gbAutoGatherGenerateMsgs; BOOL gbManualResults = FALSE; BOOL gbInteractWithDesktop = FALSE; DWORD gdwCallInstance = 0; DWORD gdwDrvLineSize; WCHAR gszProviderInfo[] = L"ESP v2.0"; HANDLE ghPBXThread = NULL; PDRVCALL gaParkedCalls[MAX_NUM_PARKED_CALLS]; HANDLE ghESPHeap; DWORD *gpdwSanityCheckKeyword; static WCHAR *aszDeviceClasses[] = { L"tapi/line", L"tapi/phone", L"wave", L"wave/in", L"wave/out", L"comm", L"comm/datamodem", (WCHAR *) NULL }; BOOL PASCAL IsValidDrvCall( PDRVCALL pCall, LPDWORD pdwCallInstance ); INT_PTR CALLBACK ValuesDlgProc( HWND hwnd, UINT msg, WPARAM wParam, LPARAM lParam ); LONG PASCAL CreateIncomingCall( LPCWSTR lpszDestAddress, LPLINECALLPARAMS lpCallParams, PDRVCALL pOutgoingCall, BOOL *pbValidESPAddress, PDRVLINE *ppIncomingLine, PDRVCALL *ppIncomingCall ); LONG PASCAL TransferCall( PFUNC_INFO pInfo, PDRVCALL pCall, DWORD dwValidCurrentCallStates, DWORD dwNewCallState, LPCWSTR lpszDestAddress ); int PASCAL My_lstrcmpiW( WCHAR *pwsz1, WCHAR *pwsz2 ) { if (!pwsz1 || !pwsz2) { return 1; } for( ; *pwsz1 && (*pwsz1 == *pwsz2 || *pwsz1 == (*pwsz2 ^ 0x0020)); pwsz1++, pwsz2++ ); return (*pwsz1 == *pwsz2 ? 0 : 1); } BOOL WINAPI DllMain( HANDLE hDLL, DWORD dwReason, LPVOID lpReserved ) { static BOOL bLoadedByTapisrv; static HANDLE hInitEvent; switch (dwReason) { case DLL_PROCESS_ATTACH: { UINT uiResult; /* looks like this is not needed if (!_CRT_INIT (hDLL, dwReason, lpReserved)) { OutputDebugString ("ESP: DllMain: _CRT_INIT() failed\n\r"); } */ ghInstance = hDLL; // // Allocate a private heap (use process heap if that fails) // if (!(ghESPHeap = HeapCreate( 0, // return NULL on failure, serialize access 0x1000, // initial heap size 0 // max heap size (0 == growable) ))) { ghESPHeap = GetProcessHeap(); } // setup the sanity check keywords in gESPGlobals gESPGlobals.pLines = 0; gESPGlobals.pPhones = 0; gESPGlobals.dwSanityCheckKeyword0 = SANITYCHECKKEYWORD; gESPGlobals.dwSanityCheckKeyword1 = SANITYCHECKKEYWORD; gESPGlobals.dwSanityCheckKeyword2 = SANITYCHECKKEYWORD; gESPGlobals.dwSanityCheckKeyword3 = SANITYCHECKKEYWORD; // And setup the sanity check keywords at the start of the heap if (gpdwSanityCheckKeyword = DrvAlloc(sizeof(DWORD)) ) *gpdwSanityCheckKeyword = SANITYCHECKKEYWORD; else // no memory return FALSE; // // Grab ini file settings // #if DBG { HKEY hKey; DWORD dwDataSize, dwDataType; TCHAR szTelephonyKey[] = "Software\\Microsoft\\Windows\\CurrentVersion\\Telephony", szEsp32DebugLevel[] = "Esp32DebugLevel"; RegOpenKeyEx( HKEY_LOCAL_MACHINE, szTelephonyKey, 0, KEY_ALL_ACCESS, &hKey ); dwDataSize = sizeof (DWORD); gdwDebugLevel=0; RegQueryValueEx( hKey, szEsp32DebugLevel, 0, &dwDataType, (LPBYTE) &gdwDebugLevel, &dwDataSize ); RegCloseKey (hKey); } #endif // // Determine whether we're being loaded by tapisrv or some // other process (i.e. telephony ctrl panel)- this will tell // us whether we need to go thru all the necessary init or not // if (!(GetVersion() & 0x80000000)) // Win NT { char *pszProcessName; STARTUPINFO si; GetStartupInfoA (&si); pszProcessName = si.lpTitle + (lstrlenA (si.lpTitle) - 1); for (; pszProcessName != si.lpTitle; pszProcessName--) { if (*pszProcessName == '\\') { pszProcessName++; break; } } if (lstrcmpiA (pszProcessName, "tapisrv.exe") == 0 || lstrcmpiA (pszProcessName, "svchost.exe") == 0) { bLoadedByTapisrv = TRUE; } else { bLoadedByTapisrv = FALSE; } } else { // For some reason the above blows up on Win9x char buf[MAX_PATH] = ""; DWORD i; GetModuleFileName (NULL, buf, MAX_PATH); for (i = 0; buf[i]; i++) { if (isalpha (buf[i])) { buf[i] |= 0x20; } } bLoadedByTapisrv = (strstr (buf, "tapisrv.exe") ? TRUE : FALSE); } if (bLoadedByTapisrv) { { typedef struct _XXX { DWORD dwDefValue; LPCSTR pszValueName; LPDWORD pdwValue; } XXX, *PXXX; XXX axxx[] = { { DEF_SPI_VERSION, "TSPIVersion", &gESPGlobals.dwSPIVersion }, { DEF_NUM_LINES, "NumLines", &gESPGlobals.dwNumLines }, { DEF_NUM_ADDRS_PER_LINE, "NumAddrsPerLine", &gESPGlobals.dwNumAddressesPerLine }, { DEF_NUM_CALLS_PER_ADDR, "NumCallsPerAddr", &gESPGlobals.dwNumCallsPerAddress }, { DEF_NUM_PHONES, "NumPhones", &gESPGlobals.dwNumPhones }, { DEF_DEBUG_OPTIONS, "DebugOutput", &gESPGlobals.dwDebugOptions }, { DEF_COMPLETION_MODE, "Completion", &gESPGlobals.dwCompletionMode }, { 0, "DisableUI", &gbDisableUI }, { 1, "AutoGatherGenerateMsgs", &gbAutoGatherGenerateMsgs }, { 0, NULL, NULL }, }; DWORD i; for (i = 0; axxx[i].pszValueName; i++) { *(axxx[i].pdwValue) = (DWORD) GetProfileInt( "ESP32", axxx[i].pszValueName, (int) axxx[i].dwDefValue ); } } // // // InitializeCriticalSection (&gESPGlobals.CallListCritSec); InitializeCriticalSection (&gESPGlobals.PhoneCritSec); InitializeCriticalSection (&gESPGlobals.AsyncEventQueueCritSec); if (gbDisableUI) { // // Don't bother doing all the stuff to sync/start up espexe. // However, we do want to make sure that we're not wasting // time spewing dbg output nor completing async requests in // any way other than inline (synchronously), since we're // not real smart about cleaning up pending async requests // when a call or line is closed/destroyed. // gESPGlobals.dwDebugOptions = 0; gESPGlobals.dwCompletionMode = COMPLETE_ASYNC_EVENTS_SYNCHRONOUSLY; gbAutoGatherGenerateMsgs = FALSE; //TRUE; } else { // // Check to see if tapisrv has the "interact with // desktop" privilege enabled // { SC_HANDLE hSCManager, hTapisrvSvc; if ((hSCManager = OpenSCManager( NULL, NULL, GENERIC_READ ))) { if ((hTapisrvSvc = OpenService( hSCManager, "tapisrv", SERVICE_QUERY_CONFIG ))) { DWORD dwNeededSize; QUERY_SERVICE_CONFIG config; if (!QueryServiceConfig( hTapisrvSvc, &config, sizeof (QUERY_SERVICE_CONFIG), &dwNeededSize )) { QUERY_SERVICE_CONFIG *pConfig; config.dwServiceType = 0; if (GetLastError() == ERROR_INSUFFICIENT_BUFFER) { if ((pConfig = DrvAlloc (dwNeededSize))) { if (QueryServiceConfig( hTapisrvSvc, pConfig, dwNeededSize, &dwNeededSize )) { config.dwServiceType = pConfig->dwServiceType; } DrvFree (pConfig); } } } gbInteractWithDesktop = (BOOL) (config.dwServiceType & SERVICE_INTERACTIVE_PROCESS); CloseServiceHandle (hTapisrvSvc); } CloseServiceHandle (hSCManager); } } if (!gbInteractWithDesktop) { gESPGlobals.dwDebugOptions &= ~MANUAL_RESULTS; } // // // InitializeCriticalSection (&gESPGlobals.DebugBufferCritSec); InitializeCriticalSection (&gESPGlobals.EventBufferCritSec); gESPGlobals.dwDebugBufferTotalSize = 2048; gESPGlobals.dwDebugBufferUsedSize = 0; gESPGlobals.pDebugBuffer = gESPGlobals.pDebugBufferIn = gESPGlobals.pDebugBufferOut = DrvAlloc( gESPGlobals.dwDebugBufferTotalSize ); gESPGlobals.dwEventBufferTotalSize = 40 * sizeof (WIDGETEVENT); gESPGlobals.dwEventBufferUsedSize = 0; gESPGlobals.pEventBuffer = gESPGlobals.pEventBufferIn = gESPGlobals.pEventBufferOut = DrvAlloc( gESPGlobals.dwEventBufferTotalSize ); // // Create the events used to sync up w/ espexe, and // start espexe if it's not already running // ghDebugOutputEvent = CreateEvent( (LPSECURITY_ATTRIBUTES) NULL, TRUE, // manual reset FALSE, // non-signaled NULL // unnamed ); ghWidgetEventsEvent = CreateEvent( (LPSECURITY_ATTRIBUTES) NULL, TRUE, // manual reset FALSE, // non-signaled NULL // unnamed ); ghShutdownEvent = CreateEvent( (LPSECURITY_ATTRIBUTES) NULL, FALSE, // auto reset FALSE, // non-signaled NULL // unnamed ); // // Enable rpc server interface // { RPC_STATUS status; unsigned char * pszSecurity = NULL; unsigned int cMaxCalls = 20; status = RpcServerUseProtseqEp( "ncalrpc", cMaxCalls, "esplpc", pszSecurity // Security descriptor ); DBGOUT((3, "RpcServerUseProtseqEp(lrpc) ret'd %d", status)); if (status) { } status = RpcServerRegisterIf( esp_ServerIfHandle, // interface to register NULL, // MgrTypeUuid NULL // MgrEpv; null means use default ); DBGOUT((3, "RpcServerRegisterIf ret'd %d", status)); if (status) { } } if ((hInitEvent = OpenEvent( EVENT_ALL_ACCESS, FALSE, "ESPevent" ))) { SetEvent (hInitEvent); } else { hInitEvent = CreateEvent( (LPSECURITY_ATTRIBUTES) NULL, FALSE, // auto reset TRUE, // signaled "ESPevent" ); DBGOUT((3, "Starting espexe...")); if ((uiResult = WinExec ("espexe.exe", SW_SHOW)) < 32) { DBGOUT(( 1, "WinExec(espexe.exe) failed, err=%d", uiResult )); gESPGlobals.dwDebugOptions = 0; gESPGlobals.dwCompletionMode = COMPLETE_ASYNC_EVENTS_SYNCHRONOUSLY; } #if DBG else { DBGOUT((3, "started espexe")); } #endif } } } ASSERT_SANITYCHECK; break; } case DLL_PROCESS_DETACH: ASSERT_SANITYCHECK; if (bLoadedByTapisrv) { if (gbDisableUI == FALSE) { SetEvent (ghShutdownEvent); // // Unregister out rpc server interface // { RPC_STATUS status; status = RpcServerUnregisterIf( esp_ServerIfHandle, // interface to register NULL, // MgrTypeUuid 0 // wait for calls to complete ); DBGOUT((3, "RpcServerUntegisterIf ret'd %d", status)); } CloseHandle (ghDebugOutputEvent); CloseHandle (ghWidgetEventsEvent); CloseHandle (ghShutdownEvent); CloseHandle (hInitEvent); DeleteCriticalSection (&gESPGlobals.DebugBufferCritSec); DeleteCriticalSection (&gESPGlobals.EventBufferCritSec); DrvFree (gESPGlobals.pDebugBuffer); DrvFree (gESPGlobals.pEventBuffer); } DeleteCriticalSection (&gESPGlobals.CallListCritSec); DeleteCriticalSection (&gESPGlobals.PhoneCritSec); DeleteCriticalSection (&gESPGlobals.AsyncEventQueueCritSec); } /* looks like this is not needed if (!_CRT_INIT (hDLL, dwReason, lpReserved)) { OutputDebugString ("ESP: DllMain: _CRT_INIT() failed\n\r"); } */ if (ghESPHeap != GetProcessHeap()) { HeapDestroy (ghESPHeap); } break; default: /* looks like this is not needed if (!_CRT_INIT (hDLL, dwReason, lpReserved)) { OutputDebugString ("ESP: DllMain: _CRT_INIT() failed\n\r"); } */ break; } return TRUE; } void AsyncEventQueueServiceThread( LPVOID pParams ) { while (1) { WaitForSingleObject (gESPGlobals.hAsyncEventsPendingEvent, INFINITE); while (1) { PASYNC_REQUEST_INFO pAsyncReqInfo; EnterCriticalSection (&gESPGlobals.AsyncEventQueueCritSec); if (gESPGlobals.dwNumUsedQueueEntries == 0) { ResetEvent (gESPGlobals.hAsyncEventsPendingEvent); LeaveCriticalSection (&gESPGlobals.AsyncEventQueueCritSec); break; } pAsyncReqInfo = *gESPGlobals.pAsyncRequestQueueOut; gESPGlobals.pAsyncRequestQueueOut++; if (gESPGlobals.pAsyncRequestQueueOut == (gESPGlobals.pAsyncRequestQueue + gESPGlobals.dwNumTotalQueueEntries)) { gESPGlobals.pAsyncRequestQueueOut = gESPGlobals.pAsyncRequestQueue; } gESPGlobals.dwNumUsedQueueEntries--; LeaveCriticalSection (&gESPGlobals.AsyncEventQueueCritSec); if (pAsyncReqInfo->pfnPostProcessProc) { (*(pAsyncReqInfo->pfnPostProcessProc))( pAsyncReqInfo, ASYNC ); } else { DoCompletion (pAsyncReqInfo, ASYNC); } DrvFree (pAsyncReqInfo); } if (gESPGlobals.bProviderShutdown) { break; } } ExitThread (0); } void PBXThread( LPVOID pParams ) { DWORD *pPBXSettings = (LPDWORD) pParams, dwTickCount, dwElapsedTime, dwTimePerNewCall = pPBXSettings[0], dwLastNewCallTickCount, dwTimePerDisconnect = pPBXSettings[1], dwLastDisconnectTickCount; /* DWORD dwTickCount, dwElapsedTime, dwLastNewCallTickCount, dwLastDisconnectTickCount, dwTimePerNewCall = (gPBXSettings[0].dwNumber ? gPBXSettings[0].dwTime / gPBXSettings[0].dwNumber : 0), dwTimePerDisconnect = (gPBXSettings[1].dwNumber ? gPBXSettings[1].dwTime / gPBXSettings[1].dwNumber : 0); */ ShowStr (TRUE, "PBXThread: enter"); dwTickCount = dwLastNewCallTickCount = dwLastDisconnectTickCount = GetTickCount(); ShowStr( TRUE, "dwTimePerNewCall = %d, dwTimePerDisconnect = %d", dwTimePerNewCall, dwTimePerDisconnect ); while (1) { Sleep (1000); if (gbExitPBXThread) { break; } dwTickCount += 1000; // will automatically wrap around to 0 after it reaches 0xffffffff if (dwTimePerNewCall) { dwElapsedTime = (dwLastNewCallTickCount<=dwTickCount) ? (dwTickCount-dwLastNewCallTickCount) : (dwTickCount+(MAXDWORD-dwLastNewCallTickCount)); while (dwElapsedTime >= dwTimePerNewCall) { // // Generate new call (random line, random media mode) // DWORD i = rand(), j; for (j = 0; j < gESPGlobals.dwInitialNumLines; j++) { PDRVLINE pLine = GetLineFromID( i % gESPGlobals.dwInitialNumLines + gESPGlobals.dwLineDeviceIDBase ); if (pLine && pLine->dwMediaModes) { DWORD dwMediaMode; PDRVCALL pCall; for( dwMediaMode = (LINEMEDIAMODE_INTERACTIVEVOICE << i % 13); dwMediaMode <= LAST_LINEMEDIAMODE; dwMediaMode <<= 1 ) { if (pLine->dwMediaModes & dwMediaMode) { goto PBXThread_allocCall; } } for( dwMediaMode = LINEMEDIAMODE_INTERACTIVEVOICE; dwMediaMode <= LAST_LINEMEDIAMODE; dwMediaMode <<= 1 ) { if (pLine->dwMediaModes & dwMediaMode) { break; } } PBXThread_allocCall: if (AllocCall (pLine, NULL, NULL, &pCall) == 0) { pCall->dwMediaMode = dwMediaMode; SendLineEvent( pLine, NULL, LINE_NEWCALL, (ULONG_PTR) pCall, (ULONG_PTR) &pCall->htCall, 0 ); if (!pCall->htCall) { FreeCall (pCall, pCall->dwCallInstance); continue; } SetCallState( pCall, pCall->dwCallInstance, 0xffffffff, LINECALLSTATE_OFFERING, 0, FALSE ); break; } } i++; } dwElapsedTime -= dwTimePerNewCall; dwLastNewCallTickCount = dwTickCount; } } if (dwTimePerDisconnect) { dwElapsedTime = (dwLastDisconnectTickCount<=dwTickCount) ? (dwTickCount-dwLastDisconnectTickCount) : (dwTickCount+(MAXDWORD-dwLastDisconnectTickCount)); while (dwElapsedTime >= dwTimePerDisconnect) { // // Disconnect a random (non-idle) call (random disconnect mode) // DWORD i = rand(), j, k; for (j = 0; j < gESPGlobals.dwInitialNumLines; j++) { DWORD dwInitialAddrID = i % gESPGlobals.dwNumAddressesPerLine, dwLastAddrID = gESPGlobals.dwNumAddressesPerLine; PDRVLINE pLine = GetLineFromID( i % gESPGlobals.dwInitialNumLines + gESPGlobals.dwLineDeviceIDBase ); PBXThread_findCallToDisconnect: for ( k = dwInitialAddrID; k < dwLastAddrID; k++ ) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (pLine->aAddrs[k].dwNumCalls) { PDRVCALL pCall = pLine->aAddrs[k].pCalls; while (pCall && pCall->dwCallState == LINECALLSTATE_IDLE) { pCall = pCall->pNext; } if (pCall) { DWORD dwDisconnectMode = LINEDISCONNECTMODE_NORMAL; // BUGBUG disconnectMode depends on curr state SetCallState( pCall, pCall->dwCallInstance, 0xffffffff, LINECALLSTATE_DISCONNECTED, dwDisconnectMode, FALSE ); SetCallState( pCall, pCall->dwCallInstance, 0xffffffff, LINECALLSTATE_IDLE, 0, FALSE ); LeaveCriticalSection( &gESPGlobals.CallListCritSec ); goto PBXThread_droppedCall; } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } if (dwInitialAddrID != 0) { dwLastAddrID = dwInitialAddrID; dwInitialAddrID = 0; goto PBXThread_findCallToDisconnect; } i++; } PBXThread_droppedCall: dwElapsedTime -= dwTimePerDisconnect; dwLastDisconnectTickCount = dwTickCount; } } } DrvFree (pPBXSettings); ShowStr (TRUE, "PBXThread: exit"); ExitThread (0); } void PASCAL InsertVarData( LPVOID lpXxx, LPDWORD pdwXxxSize, LPVOID pData, DWORD dwDataSize ) { DWORD dwAlignedSize, dwUsedSize; LPVARSTRING lpVarString = (LPVARSTRING) lpXxx; if (dwDataSize != 0) { // // Align var data on 64-bit boundaries // if ((dwAlignedSize = dwDataSize) & 7) { dwAlignedSize += 8; dwAlignedSize &= 0xfffffff8; } // // The following if statement should only be TRUE the first time // we're inserting data into a given structure that does not have // an even number of DWORD fields // if ((dwUsedSize = lpVarString->dwUsedSize) & 7) { dwUsedSize += 8; dwUsedSize &= 0xfffffff8; lpVarString->dwNeededSize += dwUsedSize - lpVarString->dwUsedSize; } lpVarString->dwNeededSize += dwAlignedSize; if ((dwUsedSize + dwAlignedSize) <= lpVarString->dwTotalSize) { CopyMemory( ((LPBYTE) lpVarString) + dwUsedSize, pData, dwDataSize ); *pdwXxxSize = dwDataSize; pdwXxxSize++; // pdwXxxSize = pdwXxxOffset *pdwXxxSize = dwUsedSize; lpVarString->dwUsedSize = dwUsedSize + dwAlignedSize; } } } void PASCAL InsertVarDataString( LPVOID lpXxx, LPDWORD pdwXxxSize, WCHAR *psz ) { DWORD dwRealSize = (lstrlenW (psz) + 1) * sizeof (WCHAR), dwAlignedSize; LPVARSTRING lpVarString = (LPVARSTRING) lpXxx; if (dwRealSize % 4) { dwAlignedSize = dwRealSize - (dwRealSize % 4) + 4; } else { dwAlignedSize = dwRealSize; } lpVarString->dwNeededSize += dwAlignedSize; if ((lpVarString->dwUsedSize + dwAlignedSize) <= lpVarString->dwTotalSize) { CopyMemory( ((LPBYTE) lpVarString) + lpVarString->dwUsedSize, psz, dwRealSize ); *pdwXxxSize = dwRealSize; pdwXxxSize++; *pdwXxxSize = lpVarString->dwUsedSize; lpVarString->dwUsedSize += dwAlignedSize; } } // // We get a slough of C4047 (different levels of indrection) warnings down // below in the initialization of FUNC_PARAM structs as a result of the // real func prototypes having params that are types other than DWORDs, // so since these are known non-interesting warnings just turn them off // #pragma warning (disable:4047) // // --------------------------- TSPI_lineXxx funcs ----------------------------- // void FAR PASCAL TSPI_lineAccept_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { if (pAsyncReqInfo->lResult == 0) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam2; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1; pAsyncReqInfo->lResult = SetCallState( pCall, dwCallInstThen, LINECALLSTATE_OFFERING, LINECALLSTATE_ACCEPTED, 0, TRUE ); } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineAccept( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPCSTR lpsUserUserInfo, DWORD dwSize ) { static char szFuncName[] = "lineAccept"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpsUserUserInfo", lpsUserUserInfo }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_lineAccept_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { info.pAsyncReqInfo->dwParam2 = dwCallInstance; info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdCall; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } void FAR PASCAL TSPI_lineAddToConference_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { if (pAsyncReqInfo->lResult == 0) { DWORD dwConfCallInstThen = (DWORD) pAsyncReqInfo->dwParam3, dwConsultCallInstThen = (DWORD) pAsyncReqInfo->dwParam4, dwConfCallInstNow; PDRVCALL pConfCall = (PDRVCALL) pAsyncReqInfo->dwParam1; PDRVCALL pConsultCall = (PDRVCALL) pAsyncReqInfo->dwParam2; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pConfCall, &dwConfCallInstNow) && dwConfCallInstNow == dwConfCallInstThen) { // // Note - indecision on the validity of ONHOLD -> CONNECTED transition // SDK allows it, internal TAPI documents by NoelA do not. // if (SetCallState( pConfCall, dwConfCallInstThen, LINECALLSTATE_ONHOLDPENDCONF | LINECALLSTATE_ONHOLD, LINECALLSTATE_CONNECTED, 0, TRUE ) == 0) { if ((pAsyncReqInfo->lResult = SetCallState( pConsultCall, dwConsultCallInstThen, LINECALLSTATE_PROCEEDING | LINECALLSTATE_RINGBACK | LINECALLSTATE_ONHOLD | LINECALLSTATE_CONNECTED, LINECALLSTATE_CONFERENCED, pConfCall->htCall, TRUE )) == 0) { pConsultCall->pConfParent = pConfCall; pConsultCall->pNextConfChild = pConfCall->pNextConfChild; pConfCall->pNextConfChild = pConsultCall; /* pConsultCall->dwRelatedCallID = pConfCall->dwRelatedCallID; SendLineEvent( pConsultCall->pLine, pConsultCall, LINE_CALLINFO, LINECALLINFOSTATE_RELATEDCALLID, 0, 0 ); */ // give the consult call the same callid as the conf controller // this puts it into the same call hub pConsultCall->dwCallID = pConfCall->dwCallID; SendLineEvent( pConsultCall->pLine, pConsultCall, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); if (pConsultCall->pDestCall) { // BUGBUG chg buddy's call hub id, and check to see if // buddy is in a conf (if so will need to munge // the conf too (?) // give the consult call's buddy the same callid as the conf // controller, this puts it into the same call hub pConsultCall->pDestCall->dwCallID = pConfCall->dwCallID; SendLineEvent( pConsultCall->pDestCall->pLine, pConsultCall->pDestCall, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); } } } } else { pAsyncReqInfo->lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineAddToConference( DRV_REQUESTID dwRequestID, HDRVCALL hdConfCall, HDRVCALL hdConsultCall ) { static char szFuncName[] = "lineAddToConference"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { "hdConfCall", hdConfCall }, { "hdConsultCall", hdConsultCall } }; FUNC_INFO info = { szFuncName, ASYNC, 3, params, TSPI_lineAddToConference_postProcess }; PDRVCALL pConfCall = (PDRVCALL) hdConfCall; PDRVCALL pConsultCall = (PDRVCALL) hdConsultCall; if (Prolog (&info)) { DWORD dwConfCallInstance, dwConsultCallInstance; if (IsValidDrvCall ((PDRVCALL) hdConfCall, &dwConfCallInstance) && IsValidDrvCall ((PDRVCALL) hdConsultCall, &dwConsultCallInstance)) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdConfCall; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) hdConsultCall; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) dwConfCallInstance; info.pAsyncReqInfo->dwParam4 = (ULONG_PTR) dwConsultCallInstance; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } void FAR PASCAL TSPI_lineAnswer_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { if (pAsyncReqInfo->lResult == 0) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam2; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1; pAsyncReqInfo->lResult = SetCallState( pCall, dwCallInstThen, LINECALLSTATE_OFFERING | LINECALLSTATE_ACCEPTED, LINECALLSTATE_CONNECTED, 0, TRUE ); } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineAnswer( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPCSTR lpsUserUserInfo, DWORD dwSize ) { static char szFuncName[] = "lineAnswer"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpsUserUserInfo", lpsUserUserInfo }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_lineAnswer_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam2 = dwCallInstance; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineBlindTransfer( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPCWSTR lpszDestAddress, DWORD dwCountryCode ) { static char szFuncName[] = "lineBlindTransfer"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpszDestAddress", lpszDestAddress }, { "dwCountryCode", dwCountryCode } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, NULL }; if (Prolog (&info)) { info.lResult = TransferCall( &info, (PDRVCALL) hdCall, LINECALLSTATE_CONNECTED, LINECALLSTATE_OFFERING, lpszDestAddress ); } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineClose( HDRVLINE hdLine ) { static char szFuncName[] = "lineClose"; FUNC_PARAM params[] = { { szhdLine, hdLine } }; FUNC_INFO info = { szFuncName, SYNC, 1, params }; PDRVLINE pLine = (PDRVLINE) hdLine; // // This is more of a "command" than a request, in that TAPI.DLL is // going to consider the line closed whether we like it or not. // Therefore we want to free up the line even if the user chooses // to return an error. // Prolog (&info); pLine->htLine = (HTAPILINE) NULL; pLine->dwMediaModes = 0; // pLine->dwMSGWAITFlag = 0; //smarandb #23974 winseqfe: don't reset this on lineClose!! //this value should not be reset on lineClose, //instead it should reflect the hardware status (should be dictated by the switch). WriteEventBuffer (pLine->dwDeviceID, WIDGETTYPE_LINE, 0, 0, 0, 0); return (Epilog (&info)); } LONG TSPIAPI TSPI_lineCloseCall( HDRVCALL hdCall ) { DWORD dwCallInst; static char szFuncName[] = "lineCloseCall"; FUNC_PARAM params[] = { { szhdCall, hdCall } }; FUNC_INFO info = { szFuncName, SYNC, 1, params }; PDRVCALL pCall = (PDRVCALL) hdCall; // // This is more of a "command" than a request, in that TAPI.DLL is // going to consider the call closed whether we like it or not. // Therefore we want to free up the call even if the user chooses // to return an error. // Prolog (&info); if (IsValidDrvCall (pCall, &dwCallInst)) { if (pCall && pCall->pLine) WriteEventBuffer( ((PDRVLINE) pCall->pLine)->dwDeviceID, WIDGETTYPE_CALL, (ULONG_PTR) pCall, 0, 0, 0 ); FreeCall (pCall, dwCallInst); } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineCompleteCall( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPDWORD lpdwCompletionID, DWORD dwCompletionMode, DWORD dwMessageID ) { static char szFuncName[] = "lineCompleteCall"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpdwCompletionID", lpdwCompletionID }, { "dwCompletionMode", dwCompletionMode }, { "dwMessageID", dwMessageID } }; FUNC_INFO info = { szFuncName, ASYNC, 5, params, NULL }; if (Prolog (&info)) { if (dwMessageID >= MAX_NUM_COMPLETION_MESSAGES) { info.lResult = LINEERR_INVALMESSAGEID; } } return (Epilog (&info)); } void FAR PASCAL TSPI_lineCompleteTransfer_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam1, dwConsultCallInstThen = (DWORD) pAsyncReqInfo->dwParam2, dwConfCallInstThen = (DWORD) pAsyncReqInfo->dwParam6, dwCallInstNow, dwConsultCallInstNow, dwConfCallInstNow; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam3, pConsultCall = (PDRVCALL) pAsyncReqInfo->dwParam4, pConfCall = (PDRVCALL) pAsyncReqInfo->dwParam5; if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, &dwCallInstNow) && dwCallInstNow == dwCallInstThen && IsValidDrvCall (pConsultCall, &dwConsultCallInstNow) && dwConsultCallInstNow == dwConsultCallInstThen) { if (pConfCall) { if (IsValidDrvCall (pConfCall, &dwConfCallInstNow) && dwConfCallInstNow == dwConfCallInstThen) { pConfCall->pNextConfChild = pCall; pCall->pNextConfChild = pConsultCall; pCall->pConfParent = pConfCall; pConsultCall->pConfParent = pConfCall; } else { pAsyncReqInfo->lResult = LINEERR_INVALCALLHANDLE; } } } else { pAsyncReqInfo->lResult = LINEERR_INVALCALLHANDLE; if (pConfCall) { FreeCall (pConfCall, dwConfCallInstThen); } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { if (pConfCall) { if (SetCallState( pConfCall, dwConfCallInstNow, 0xffffffff, // we just created this conf call, any state is fine LINECALLSTATE_CONNECTED, 0, TRUE ) == 0) { // // Note - indecision on the validity of ONHOLD -> CONFERENCED transition // SDK allows it, internal TAPI documents by NoelA do not. // SetCallState( pCall, dwCallInstNow, LINECALLSTATE_ONHOLDPENDTRANSFER | LINECALLSTATE_ONHOLD, LINECALLSTATE_CONFERENCED, 0, TRUE ); // // Note - indecision on the validity of these transitions // SDK allows them, internal TAPI documents by NoelA do not. // SetCallState( pConsultCall, dwConsultCallInstNow, LINECALLSTATE_PROCEEDING | LINECALLSTATE_RINGBACK | LINECALLSTATE_BUSY | LINECALLSTATE_CONNECTED, LINECALLSTATE_CONFERENCED, 0, TRUE ); } pConsultCall->dwCallID = pConfCall->dwCallID; SendLineEvent( pConsultCall->pLine, pConsultCall, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); if (pConsultCall->pDestCall) { pConsultCall->pDestCall->dwCallID = pConfCall->dwCallID; SendLineEvent( pConsultCall->pDestCall->pLine, pConsultCall->pDestCall, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); } } else { PDRVCALL pCallOtherEnd = pCall->pDestCall; PDRVCALL pConsultCallOtherEnd = pConsultCall->pDestCall; pCall->pDestCall = NULL; pConsultCall->pDestCall = NULL; // create a new callid for the transfered call // this create a new call hub if (pConsultCallOtherEnd) { pConsultCallOtherEnd->pDestCall = pCallOtherEnd; pConsultCallOtherEnd->dwCallID = (++gdwCallID ? gdwCallID : ++gdwCallID); SendLineEvent( pConsultCallOtherEnd->pLine, pConsultCallOtherEnd, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); } if (pCallOtherEnd) { pCallOtherEnd->pDestCall = pConsultCallOtherEnd; pCallOtherEnd->dwCallID = pConsultCallOtherEnd->dwCallID; SendLineEvent( pCallOtherEnd->pLine, pCallOtherEnd, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); } SetCallState( pCall, dwCallInstNow, LINECALLSTATE_ONHOLDPENDTRANSFER | LINECALLSTATE_ONHOLD, LINECALLSTATE_IDLE, 0, TRUE ); // // Note - indecision on the validity of BUSY->IDLE transition // SDK allows it, internal TAPI documents by NoelA do not. // SetCallState( pConsultCall, dwConsultCallInstNow, LINECALLSTATE_RINGBACK | LINECALLSTATE_PROCEEDING | LINECALLSTATE_CONNECTED | LINECALLSTATE_BUSY, LINECALLSTATE_IDLE, 0, TRUE ); } } } LONG TSPIAPI TSPI_lineCompleteTransfer( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, HDRVCALL hdConsultCall, HTAPICALL htConfCall, LPHDRVCALL lphdConfCall, DWORD dwTransferMode ) { static char szFuncName[] = "lineCompleteTransfer"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "hdConsultCall", hdConsultCall }, { "htConfCall", htConfCall }, { "lphdConfCall", lphdConfCall }, { "dwTransferMode", dwTransferMode, aTransferModes } }; FUNC_INFO info = { szFuncName, ASYNC, 6, params, TSPI_lineCompleteTransfer_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance, dwConsultCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance) && IsValidDrvCall((PDRVCALL) hdConsultCall, &dwConsultCallInstance)) { info.pAsyncReqInfo->dwParam1 = dwCallInstance; info.pAsyncReqInfo->dwParam2 = dwConsultCallInstance; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam4 = (ULONG_PTR) hdConsultCall; if (dwTransferMode == LINETRANSFERMODE_CONFERENCE) { LONG lResult; PDRVCALL pConfCall; PDRVLINE pLine = ((PDRVCALL) hdCall)->pLine; if ((lResult = AllocCall( pLine, htConfCall, NULL, &pConfCall )) == 0) { *lphdConfCall = (HDRVCALL) pConfCall; pConfCall->dwCallID = ((PDRVCALL) hdCall)->dwCallID; info.pAsyncReqInfo->dwParam5 = (ULONG_PTR) pConfCall; info.pAsyncReqInfo->dwParam6 = pConfCall->dwCallInstance; } else { info.lResult = lResult; } } } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineConditionalMediaDetection( HDRVLINE hdLine, DWORD dwMediaModes, LPLINECALLPARAMS const lpCallParams ) { static char szFuncName[] = "lineConditionalMediaDetection"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "dwMediaModes", dwMediaModes, aMediaModes }, { szlpCallParams, lpCallParams } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; PDRVLINE pLine = (PDRVLINE) hdLine; if (Prolog (&info)) { } return (Epilog (&info)); } void FAR PASCAL TSPI_lineDevSpecific_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { LPBYTE lpParams = pAsyncReqInfo->dwParam1; DWORD dwSize = (DWORD) pAsyncReqInfo->dwParam2, i; if (pAsyncReqInfo->lResult == 0) { for (i = 0; i < dwSize; i++) { *lpParams++ = (BYTE) i; } } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineDevSpecific( DRV_REQUESTID dwRequestID, HDRVLINE hdLine, DWORD dwAddressID, HDRVCALL hdCall, LPVOID lpParams, DWORD dwSize ) { static char szFuncName[] = "lineDevSpecific"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdLine, hdLine }, { "dwAddressID", dwAddressID }, { szhdCall, hdCall }, { "lpParams", lpParams }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 6, params }; PESPDEVSPECIFICINFO pInfo = (PESPDEVSPECIFICINFO) lpParams; if (Prolog (&info)) { if (dwSize >= sizeof (ESPDEVSPECIFICINFO) && pInfo->dwKey == ESPDEVSPECIFIC_KEY) { switch (pInfo->dwType) { case ESP_DEVSPEC_MSG: switch (pInfo->u.EspMsg.dwMsg) { case LINE_ADDRESSSTATE: case LINE_CLOSE: case LINE_DEVSPECIFIC: case LINE_DEVSPECIFICFEATURE: case LINE_LINEDEVSTATE: SendLineEvent( (PDRVLINE) hdLine, NULL, pInfo->u.EspMsg.dwMsg, pInfo->u.EspMsg.dwParam1, pInfo->u.EspMsg.dwParam2, pInfo->u.EspMsg.dwParam3 ); break; case LINE_CALLDEVSPECIFIC: case LINE_CALLDEVSPECIFICFEATURE: case LINE_CALLINFO: case LINE_MONITORDIGITS: case LINE_MONITORMEDIA: if (hdCall) { SendLineEvent( (PDRVLINE) hdLine, (PDRVCALL) hdCall, pInfo->u.EspMsg.dwMsg, pInfo->u.EspMsg.dwParam1, pInfo->u.EspMsg.dwParam2, pInfo->u.EspMsg.dwParam3 ); } else { info.lResult = LINEERR_OPERATIONFAILED; } break; case LINE_GATHERDIGITS: if (hdCall) { DWORD dwEndToEndID = 0; PDRVCALL pCall = (PDRVCALL) hdCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { if ((dwEndToEndID = pCall->dwGatherDigitsEndToEndID)) { pCall->dwGatherDigitsEndToEndID = 0; } else { info.lResult = LINEERR_OPERATIONFAILED; } } else { info.lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (dwEndToEndID) { SendLineEvent( (PDRVLINE) hdLine, (PDRVCALL) hdCall, LINE_GATHERDIGITS, pInfo->u.EspMsg.dwParam1, dwEndToEndID, 0 ); } else if (info.lResult == LINEERR_OPERATIONFAILED) { ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: attempt to " \ "send GATHERDIGITS msg with no " \ "lineGatherDigits request pending" ); } } else { info.lResult = LINEERR_OPERATIONFAILED; } break; case LINE_GENERATE: if (hdCall) { DWORD dwEndToEndID = 0, *pdwXxxEndToEndID; PDRVCALL pCall = (PDRVCALL) hdCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { pdwXxxEndToEndID = (pInfo->u.EspMsg.dwParam3 ? &pCall->dwGenerateToneEndToEndID : &pCall->dwGenerateDigitsEndToEndID ); if ((dwEndToEndID = *pdwXxxEndToEndID)) { *pdwXxxEndToEndID = 0; } else { info.lResult = LINEERR_OPERATIONFAILED; } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (dwEndToEndID) { SendLineEvent( (PDRVLINE) hdLine, (PDRVCALL) hdCall, LINE_GENERATE, pInfo->u.EspMsg.dwParam1, dwEndToEndID, 0 ); } else if (info.lResult == LINEERR_OPERATIONFAILED) { ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: attempt to " \ "send GENERATE msg with no " \ "lineGenerateXxx request pending" ); } } else { info.lResult = LINEERR_OPERATIONFAILED; } break; case LINE_MONITORTONE: if (hdCall) { DWORD dwToneListID = 0; PDRVCALL pCall = (PDRVCALL) hdCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { if ((dwToneListID = pCall->dwMonitorToneListID)) { pCall->dwMonitorToneListID = 0; } else { info.lResult = LINEERR_OPERATIONFAILED; } } else { info.lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (dwToneListID) { SendLineEvent( (PDRVLINE) hdLine, (PDRVCALL) hdCall, LINE_MONITORTONE, pInfo->u.EspMsg.dwParam1, dwToneListID, 0 ); } else if (info.lResult == LINEERR_OPERATIONFAILED) { ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: attempt to " \ "send MONITORTONE msg with no " \ "lineMonitorTone request pending" ); } } else { info.lResult = LINEERR_OPERATIONFAILED; } break; case LINE_CALLSTATE: { DWORD dwCallInst; if (hdCall && IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInst)) { LONG lResult; ULONG_PTR param2 = pInfo->u.EspMsg.dwParam2; // BUGBUG changing to/from conf state cause ptr probs? // BUGBUG check for bad call state vals if (pInfo->u.EspMsg.dwParam1 == LINECALLSTATE_CONFERENCED && pInfo->u.EspMsg.dwParam2 != 0) { // // App wants us to do a provider-initiated // conference. // // Try to find the call on this line whose // dwAppSpecific field matches the value in // pInfo->u.EspMsg.dwParam2. This will be // the conference parent. // DWORD i; PDRVLINE pLine; PDRVCALL pConfCall = NULL, pCall; EnterCriticalSection( &gESPGlobals.CallListCritSec ); if (IsValidDrvCall ((PDRVCALL)hdCall, &dwCallInst)) { pLine = (PDRVLINE) ((PDRVCALL) hdCall)->pLine; for( i = 0; i < gESPGlobals.dwNumAddressesPerLine && pConfCall == NULL; i++ ) { pCall = pLine->aAddrs[i].pCalls; while (pCall) { if (pCall->dwAppSpecific == pInfo->u.EspMsg.dwParam2) { pConfCall = pCall; break; } pCall = pCall->pNext; } } if (pConfCall) { if (pConfCall->pConfParent == NULL) { pCall = (PDRVCALL) hdCall; pCall->pConfParent = pConfCall; pCall->pNextConfChild = pConfCall->pNextConfChild; pConfCall->pNextConfChild = pCall; param2 = (ULONG_PTR) pConfCall->htCall; } else { ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: " \ "attempt to initiate conference " \ "when specifed conf parent " \ "already a conf child." ); } } else { ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: " \ "attempted to initiate conference " \ "but could not find conf parent " \ "with specified dwAppSpecific value." ); } } LeaveCriticalSection( &gESPGlobals.CallListCritSec ); } if ((lResult = SetCallState( (PDRVCALL) hdCall, dwCallInst, 0xffffffff, pInfo->u.EspMsg.dwParam1, //LINECALLSTATE_CONFERENCED param2, TRUE )) != 0) { info.lResult = lResult; } } else { info.lResult = LINEERR_OPERATIONFAILED; } break; } case LINE_CREATE: if (gESPGlobals.pLines->dwNumUsedEntries < gESPGlobals.pLines->dwNumTotalEntries) { (*gESPGlobals.pfnLineEvent)( (HTAPILINE) NULL, (HTAPICALL) NULL, LINE_CREATE, (ULONG_PTR) gESPGlobals.hProvider, gESPGlobals.pLines->dwNumUsedEntries++, 0 ); } else { ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: attempt " \ "to send LINE_CREATE - can't create " \ "any more devices on the fly" ); info.lResult = LINEERR_OPERATIONFAILED; } break; case LINE_NEWCALL: // BUGBUG ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: no support " \ "for indicating LINE_NEWCALL yet" ); info.lResult = LINEERR_OPERATIONFAILED; break; default: ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: unrecognized " \ "ESPDEVSPECIFICINFO.u.EspMsg.dwMsg (=x%x)", pInfo->u.EspMsg.dwMsg ); info.lResult = LINEERR_OPERATIONFAILED; break; } break; case ESP_DEVSPEC_RESULT: { DWORD dwResult = pInfo->u.EspResult.lResult; if (dwResult != 0 && (dwResult < LINEERR_ALLOCATED || dwResult > PHONEERR_REINIT || (dwResult > LINEERR_DIALVOICEDETECT && dwResult < PHONEERR_ALLOCATED))) { ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: invalid request" \ "result value (x%x)", dwResult ); info.lResult = LINEERR_OPERATIONFAILED; } else if (pInfo->u.EspResult.dwCompletionType > ESP_RESULT_CALLCOMPLPROCASYNC) { ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: invalid request" \ "completion type (x%x)", pInfo->u.EspResult.dwCompletionType ); info.lResult = LINEERR_OPERATIONFAILED; } else { glNextRequestResult = (LONG) dwResult; gdwNextRequestCompletionType = pInfo->u.EspResult.dwCompletionType; gdwDevSpecificRequestID = dwRequestID; } break; } default: ShowStr( TRUE, "ERROR: TSPI_lineDevSpecific: unrecognized " \ "ESPDEVSPECIFICINFO.dwType (=x%x)", pInfo->dwType ); info.lResult = LINEERR_OPERATIONFAILED; break; } } else { info.pAsyncReqInfo->dwParam1 = lpParams; info.pAsyncReqInfo->dwParam2 = dwSize; info.pAsyncReqInfo->pfnPostProcessProc = (FARPROC) TSPI_lineDevSpecific_postProcess; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineDevSpecificFeature( DRV_REQUESTID dwRequestID, HDRVLINE hdLine, DWORD dwFeature, LPVOID lpParams, DWORD dwSize ) { static char szFuncName[] = "lineDevSpecificFeature"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdLine, hdLine }, { "dwFeature", dwFeature }, { "lpParams", lpParams }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 5, params, TSPI_lineDevSpecific_postProcess }; if (Prolog (&info)) { info.pAsyncReqInfo->dwParam1 = lpParams; info.pAsyncReqInfo->dwParam2 = dwSize; } return (Epilog (&info)); } void FAR PASCAL TSPI_lineDial_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD bDestAddress = (DWORD) pAsyncReqInfo->dwParam3, bValidLineID = (DWORD) pAsyncReqInfo->dwParam4, dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam6, dwCallInstNow; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1, pDestCall = (PDRVCALL) pAsyncReqInfo->dwParam2; PDRVLINE pDestLine = (PDRVLINE) pAsyncReqInfo->dwParam5; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { if (bDestAddress) { if (bValidLineID && !pDestCall) { SetCallState( pCall, dwCallInstThen, 0xffffffff, LINECALLSTATE_BUSY, LINEBUSYMODE_UNAVAIL, TRUE ); } else { SetCallState( pCall, dwCallInstThen, LINECALLSTATE_DIALTONE, LINECALLSTATE_DIALING, 0, FALSE ); SetCallState( pCall, dwCallInstThen, 0xffffffff, LINECALLSTATE_RINGBACK, 0, TRUE ); } if (pDestCall) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, &dwCallInstNow) && dwCallInstNow == dwCallInstThen) { SendLineEvent( pDestLine, NULL, LINE_NEWCALL, (ULONG_PTR) pDestCall, (ULONG_PTR) &pDestCall->htCall, 0 ); if (pDestCall->htCall != NULL) { SetCallState( pDestCall, pDestCall->dwCallInstance, 0xffffffff, LINECALLSTATE_OFFERING, 0, TRUE ); } else { FreeCall (pDestCall, pDestCall->dwCallInstance); } } else { FreeCall (pDestCall, pDestCall->dwCallInstance); } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } } else { SetCallState( pCall, dwCallInstThen, 0xffffffff, LINECALLSTATE_DIALTONE, 0, TRUE ); } } else { FreeCall (pCall, dwCallInstThen); if (pDestCall) { FreeCall (pDestCall, pDestCall->dwCallInstance); } } } LONG TSPIAPI TSPI_lineDial( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPCWSTR lpszDestAddress, DWORD dwCountryCode ) { static char szFuncName[] = "lineDial"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpszDestAddress", lpszDestAddress }, { "dwCountryCode", dwCountryCode } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_lineDial_postProcess }; if (Prolog (&info)) { BOOL bValidLineID = FALSE; LONG lResult; PDRVCALL pCall = (PDRVCALL) hdCall, pDestCall; PDRVLINE pDestLine; LPLINECALLPARAMS const lpCallParams = NULL; DWORD dwCallInstance; if (IsValidDrvCall (pCall, &dwCallInstance)) { CreateIncomingCall( lpszDestAddress, lpCallParams, pCall, &bValidLineID, &pDestLine, &pDestCall ); info.pAsyncReqInfo->dwParam1 = pCall; info.pAsyncReqInfo->dwParam2 = pDestCall; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) lpszDestAddress; info.pAsyncReqInfo->dwParam4 = (ULONG_PTR) bValidLineID; info.pAsyncReqInfo->dwParam5 = pDestLine; info.pAsyncReqInfo->dwParam6 = pCall->dwCallInstance; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } void FAR PASCAL TSPI_lineDrop_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { if ((pAsyncReqInfo->lResult == 0)) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam2; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1; // // We need to make sure pCall is pointing at a valid call // structure because it's possible that tapi immediately // followed the drop request with a closeCall request // (without waiting for the result from the drop) // EnterCriticalSection (&gESPGlobals.CallListCritSec); if (SetCallState( pCall, dwCallInstThen, 0xffffffff, LINECALLSTATE_IDLE, 0, TRUE ) == 0) { if (pCall->pConfParent) { // // Call is a conf child, so remove from conf list // PDRVCALL pCall2 = pCall->pConfParent; while (pCall2 && (pCall2->pNextConfChild != pCall)) { pCall2 = pCall2->pNextConfChild; } if (pCall2) { pCall2->pNextConfChild = pCall->pNextConfChild; } pCall->pConfParent = NULL; } else if (pCall->pNextConfChild) { // // Call is a conf parent, so IDLE-ize all children & // remove them from list // PDRVCALL pConfChild = pCall->pNextConfChild; pCall->pNextConfChild = NULL; while (pConfChild) { PDRVCALL pNextConfChild = pConfChild->pNextConfChild; pConfChild->pConfParent = pConfChild->pNextConfChild = NULL; SetCallState( pConfChild, pConfChild->dwCallInstance, 0xffffffff, LINECALLSTATE_IDLE, 0, TRUE ); pConfChild = pNextConfChild; } } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineDrop( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPCSTR lpsUserUserInfo, DWORD dwSize ) { static char szFuncName[] = "lineDrop"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpsUserUserInfo", lpsUserUserInfo }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_lineDrop_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam2 = dwCallInstance; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } void FAR PASCAL TSPI_lineForward_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwConsultCallInstThen = (DWORD) pAsyncReqInfo->dwParam2; PDRVCALL pConsultCall = (PDRVCALL) pAsyncReqInfo->dwParam1; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { SetCallState( pConsultCall, dwConsultCallInstThen, 0xffffffff, // BUGBUG specify valid call states LINECALLSTATE_CONNECTED, 0, TRUE ); } else { FreeCall (pConsultCall, dwConsultCallInstThen); } } LONG TSPIAPI TSPI_lineForward( DRV_REQUESTID dwRequestID, HDRVLINE hdLine, DWORD bAllAddresses, DWORD dwAddressID, LPLINEFORWARDLIST const lpForwardList, DWORD dwNumRingsNoAnswer, HTAPICALL htConsultCall, LPHDRVCALL lphdConsultCall, LPLINECALLPARAMS const lpCallParams ) { static char szFuncName[] = "lineForward"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdLine, hdLine }, { "bAllAddresses", bAllAddresses }, { "dwAddressID", dwAddressID }, { "lpForwardList", lpForwardList }, { "dwNumRingsNoAnswer", dwNumRingsNoAnswer }, { "htConsultCall", htConsultCall }, { "lphdConsultCall", lphdConsultCall }, { szlpCallParams, lpCallParams } }; FUNC_INFO info = { szFuncName, ASYNC, 9, params, TSPI_lineForward_postProcess }; if (Prolog (&info)) { if (bAllAddresses || dwAddressID < gESPGlobals.dwNumAddressesPerLine) { if (lpForwardList) { LONG lResult; PDRVCALL pConsultCall; if ((lResult = AllocCall( (PDRVLINE) hdLine, htConsultCall, lpCallParams, &pConsultCall )) == 0) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) pConsultCall; info.pAsyncReqInfo->dwParam2 = pConsultCall->dwCallInstance; *lphdConsultCall = (HDRVCALL) pConsultCall; } else { info.lResult = lResult; } } else { info.pAsyncReqInfo->pfnPostProcessProc = NULL; *lphdConsultCall = (HDRVCALL) NULL; } } else { info.lResult = LINEERR_INVALADDRESSID; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGatherDigits( HDRVCALL hdCall, DWORD dwEndToEndID, DWORD dwDigitModes, LPWSTR lpsDigits, DWORD dwNumDigits, LPCWSTR lpszTerminationDigits, DWORD dwFirstDigitTimeout, DWORD dwInterDigitTimeout ) { static char szFuncName[] = "lineGatherDigits"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "dwEndToEndID", dwEndToEndID }, { "dwDigitModes", dwDigitModes, aDigitModes }, { "lpsDigits", lpsDigits }, { "dwNumDigits", dwNumDigits }, { "lpszTerminationDigits", lpszTerminationDigits }, { "dwFirstDigitTimeout", dwFirstDigitTimeout }, { "dwInterDigitTimeout", dwInterDigitTimeout } }; FUNC_INFO info = { szFuncName, SYNC, 8, params }; PDRVCALL pCall = (PDRVCALL) hdCall; DWORD dwReason = 0; HTAPILINE htLine; HTAPICALL htCall; if (Prolog (&info)) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { htLine = ((PDRVLINE) pCall->pLine)->htLine; htCall = pCall->htCall; if (lpsDigits) { lstrcpynW (lpsDigits, L"1234567890", dwNumDigits); if (dwNumDigits > 0 && dwNumDigits <= 10) { lpsDigits[dwNumDigits] = L'0'; } } if (gbAutoGatherGenerateMsgs) { if (lpsDigits) { dwReason = (dwNumDigits > 10 ? LINEGATHERTERM_INTERTIMEOUT : LINEGATHERTERM_BUFFERFULL); } } else { DWORD dwEndToEndIDTmp = dwEndToEndID; if ((dwEndToEndID = pCall->dwGatherDigitsEndToEndID)) { dwReason = LINEGATHERTERM_CANCEL; } pCall->dwGatherDigitsEndToEndID = (lpsDigits ? dwEndToEndIDTmp : 0); } } else { htLine = (HTAPILINE) (htCall = (HTAPICALL) NULL); dwReason = (lpsDigits ? LINEGATHERTERM_CANCEL : 0); } LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (dwReason) { (gESPGlobals.pfnLineEvent)( htLine, htCall, LINE_GATHERDIGITS, dwReason, dwEndToEndID, 0 ); } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGenerateDigits( HDRVCALL hdCall, DWORD dwEndToEndID, DWORD dwDigitMode, LPCWSTR lpszDigits, DWORD dwDuration ) { static char szFuncName[] = "lineGenerateDigits"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "dwEndToEndID", dwEndToEndID }, { "dwDigitMode", dwDigitMode, aDigitModes }, { "lpszDigits", lpszDigits }, { "dwDuration", dwDuration } }; FUNC_INFO info = { szFuncName, SYNC, 5, params }; PDRVCALL pCall = (PDRVCALL) hdCall; HTAPILINE htLine, htDestLine = NULL; HTAPICALL htCall, htDestCall; DWORD dwReason = 0, i; if (Prolog (&info)) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { htLine = ((PDRVLINE) pCall->pLine)->htLine; htCall = pCall->htCall; if (gbAutoGatherGenerateMsgs) { dwReason = (lpszDigits ? LINEGENERATETERM_DONE : 0); } else { DWORD dwEndToEndIDTmp = dwEndToEndID; if ((dwEndToEndID = pCall->dwGenerateDigitsEndToEndID)) { dwReason = LINEGENERATETERM_CANCEL; } pCall->dwGenerateDigitsEndToEndID = (lpszDigits ? dwEndToEndIDTmp : 0); } if (lpszDigits && IsValidDrvCall (pCall->pDestCall, NULL)) { htDestCall = pCall->pDestCall->htCall; htDestLine = ((PDRVLINE) pCall->pDestCall->pLine)->htLine; } } else { htLine = (HTAPILINE) (htCall = (HTAPICALL) NULL); dwReason = (lpszDigits ? LINEGENERATETERM_CANCEL : 0); } LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (dwReason) { (gESPGlobals.pfnLineEvent)( htLine, htCall, LINE_GENERATE, dwReason, dwEndToEndID, 0 ); } if (htDestLine) { DWORD dwTickCount = GetTickCount(); for (i = 0; lpszDigits[i]; i++) { (gESPGlobals.pfnLineEvent)( htDestLine, htDestCall, LINE_MONITORDIGITS, lpszDigits[i], dwDigitMode, dwTickCount + (2 * i * dwDuration) ); if (dwDigitMode == LINEDIGITMODE_DTMF) { (gESPGlobals.pfnLineEvent)( htDestLine, htDestCall, LINE_MONITORDIGITS, lpszDigits[i], LINEDIGITMODE_DTMFEND, dwTickCount + (((2 * i) + 1) * dwDuration) ); } } } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGenerateTone( HDRVCALL hdCall, DWORD dwEndToEndID, DWORD dwToneMode, DWORD dwDuration, DWORD dwNumTones, LPLINEGENERATETONE const lpTones ) { static char szFuncName[] = "lineGenerateTone"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "dwEndToEndID", dwEndToEndID }, { "dwToneMode", dwToneMode, aToneModes }, { "dwDuration", dwDuration }, { "dwNumTones", dwNumTones }, { "lpTones", lpTones } }; FUNC_INFO info = { szFuncName, SYNC, 6, params }; PDRVCALL pCall = (PDRVCALL) hdCall; HTAPILINE htLine; HTAPICALL htCall; DWORD dwReason = 0; if (Prolog (&info)) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { htLine = ((PDRVLINE) pCall->pLine)->htLine; htCall = pCall->htCall; if (gbAutoGatherGenerateMsgs) { dwReason = (dwToneMode ? LINEGENERATETERM_DONE : 0); } else { DWORD dwEndToEndIDTmp = dwEndToEndID; if ((dwEndToEndID = pCall->dwGenerateToneEndToEndID)) { dwReason = LINEGENERATETERM_CANCEL; } pCall->dwGenerateToneEndToEndID = (dwToneMode ? dwEndToEndIDTmp : 0); } } else { htLine = (HTAPILINE) (htCall = (HTAPICALL) NULL); dwReason = (dwToneMode ? LINEGENERATETERM_CANCEL : 0); } LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (dwReason) { (gESPGlobals.pfnLineEvent)( htLine, htCall, LINE_GENERATE, dwReason, dwEndToEndID, 0 ); } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetAddressCaps( DWORD dwDeviceID, DWORD dwAddressID, DWORD dwTSPIVersion, DWORD dwExtVersion, LPLINEADDRESSCAPS lpAddressCaps ) { static char szFuncName[] = "lineGetAddressCaps"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "dwAddressID", dwAddressID }, { "dwTSPIVersion", dwTSPIVersion }, { "dwExtVersion", dwExtVersion }, { "lpAddressCaps", lpAddressCaps } }; FUNC_INFO info = { szFuncName, SYNC, 5, params }; DWORD dwUsedSize; PDRVLINE pLine = GetLineFromID (dwDeviceID); if (!Prolog (&info)) { return (Epilog (&info)); } if (dwAddressID >= gESPGlobals.dwNumAddressesPerLine) { info.lResult = LINEERR_INVALADDRESSID; return (Epilog (&info)); } //lpAddressCaps->dwTotalSize //lpAddressCaps->dwNeededSize //lpAddressCaps->dwUsedSize //lpAddressCaps->dwLineDeviceID // //lpAddressCaps->dwAddressOffset { char buf[20]; WCHAR wbuf[20]; // NOTE: win9x doesn't support wsprintfW wsprintfA (buf, "%d#%d", dwDeviceID, dwAddressID); MultiByteToWideChar( GetACP(), MB_PRECOMPOSED, buf, lstrlen (buf) + 1, wbuf, 20 ); InsertVarDataString( lpAddressCaps, &lpAddressCaps->dwAddressSize, wbuf ); } //lpAddressCaps->dwDevSpecificSize //lpAddressCaps->dwDevSpecificOffset //lpAddressCaps->dwAddressSharing //lpAddressCaps->dwAddressStates //lpAddressCaps->dwCallInfoStates //lpAddressCaps->dwCallerIDFlags //lpAddressCaps->dwCalledIDFlags //lpAddressCaps->dwConnectedIDFlags //lpAddressCaps->dwRedirectionIDFlags //lpAddressCaps->dwRedirectingIDFlags //lpAddressCaps->dwCallStates //lpAddressCaps->dwDialToneModes //lpAddressCaps->dwBusyModes //lpAddressCaps->dwSpecialInfo //lpAddressCaps->dwDisconnectModes lpAddressCaps->dwMaxNumActiveCalls = gESPGlobals.dwNumCallsPerAddress; //lpAddressCaps->dwMaxNumOnHoldCalls //lpAddressCaps->dwMaxNumOnHoldPendingCalls //lpAddressCaps->dwMaxNumConference //lpAddressCaps->dwMaxNumTransConf lpAddressCaps->dwAddrCapFlags = AllAddrCaps1_0; lpAddressCaps->dwCallFeatures = AllCallFeatures1_0; //lpAddressCaps->dwRemoveFromConfCaps //lpAddressCaps->dwRemoveFromConfState //lpAddressCaps->dwTransferModes //lpAddressCaps->dwParkModes //lpAddressCaps->dwForwardModes //lpAddressCaps->dwMaxForwardEntries //lpAddressCaps->dwMaxSpecificEntries //lpAddressCaps->dwMinFwdNumRings //lpAddressCaps->dwMaxFwdNumRings //lpAddressCaps->dwMaxCallCompletions //lpAddressCaps->dwCallCompletionConds //lpAddressCaps->dwCallCompletionModes lpAddressCaps->dwNumCompletionMessages = MAX_NUM_COMPLETION_MESSAGES; //lpAddressCaps->dwCompletionMsgTextEntrySize //lpAddressCaps->dwCompletionMsgTextSize //lpAddressCaps->dwCompletionMsgTextOffset if (dwTSPIVersion >= 0x00010004) { lpAddressCaps->dwCallFeatures = AllCallFeatures1_4; lpAddressCaps->dwAddressFeatures = AllAddrFeatures1_0; if (dwTSPIVersion >= 0x00020000) { lpAddressCaps->dwAddrCapFlags = AllAddrCaps2_0; lpAddressCaps->dwCallFeatures = AllCallFeatures2_0; lpAddressCaps->dwAddressFeatures = AllAddrFeatures2_0; //lpAddressCaps->dwPredictiveAutoTransferStates //lpAddressCaps->dwNumCallTreatments //lpAddressCaps->dwCallTreatmentListSize //lpAddressCaps->dwCallTreatmentListOffset //lpAddressCaps->dwDeviceClassesSize //lpAddressCaps->dwDeviceClassesOffset //lpAddressCaps->dwMaxCallDataSize lpAddressCaps->dwCallFeatures2 = AllCallFeaturesTwo; //lpAddressCaps->dwMaxNoAnswerTimeout //lpAddressCaps->dwConnectedModes //lpAddressCaps->dwOfferingModes lpAddressCaps->dwAvailableMediaModes = AllMediaModes1_4; if (dwTSPIVersion >= 0x00020001) { lpAddressCaps->dwAvailableMediaModes = AllMediaModes2_1; } } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetAddressID( HDRVLINE hdLine, LPDWORD lpdwAddressID, DWORD dwAddressMode, LPCWSTR lpsAddress, DWORD dwSize ) { static char szFuncName[] = "lineGetAddressID"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "lpdwAddressID", lpdwAddressID }, { "dwAddressMode", dwAddressMode }, { "lpsAddress", lpsAddress }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, SYNC, 5, params }; PDRVLINE pLine = (PDRVLINE) hdLine; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetAddressStatus( HDRVLINE hdLine, DWORD dwAddressID, LPLINEADDRESSSTATUS lpAddressStatus ) { static char szFuncName[] = "lineGetAddressStatus"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "dwAddressID", dwAddressID }, { "lpAddressStatus", lpAddressStatus } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; PDRVLINE pLine = (PDRVLINE) hdLine; if (!Prolog (&info)) { return (Epilog (&info)); } if (dwAddressID >= gESPGlobals.dwNumAddressesPerLine) { info.lResult = LINEERR_INVALADDRESSID; return (Epilog (&info)); } //lpAddressStatus->dwNeededSize //lpAddressStatus->dwUsedSize //lpAddressStatus->dwNumInUse if (pLine->aAddrs[dwAddressID].dwNumCalls != 0) { PDRVCALL pCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); for( pCall = pLine->aAddrs[dwAddressID].pCalls; pCall != NULL; pCall = pCall->pNext ) { switch (pCall->dwCallState) { case LINECALLSTATE_IDLE: continue; case LINECALLSTATE_ONHOLD: lpAddressStatus->dwNumOnHoldCalls++; continue; case LINECALLSTATE_ONHOLDPENDCONF: case LINECALLSTATE_ONHOLDPENDTRANSFER: lpAddressStatus->dwNumOnHoldPendCalls++; continue; default: lpAddressStatus->dwNumActiveCalls++; continue; } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } lpAddressStatus->dwAddressFeatures = (gESPGlobals.dwSPIVersion > 0x10004 ? AllAddrFeatures1_0 : AllAddrFeatures2_0); //lpAddressStatus->dwNumRingsNoAnswer //lpAddressStatus->dwForwardNumEntries //lpAddressStatus->dwForwardSize //lpAddressStatus->dwForwardOffset //lpAddressStatus->dwTerminalModesSize //lpAddressStatus->dwTerminalModesOffset //lpAddressStatus->dwDevSpecificSize //lpAddressStatus->dwDevSpecificOffset return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetCallAddressID( HDRVCALL hdCall, LPDWORD lpdwAddressID ) { static char szFuncName[] = "lineGetCallAddressID"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "lpdwAddressID", lpdwAddressID } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; if (Prolog (&info)) { *lpdwAddressID = ((PDRVCALL) hdCall)->dwAddressID; } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetCallHubTracking( HDRVLINE hdLine, LPLINECALLHUBTRACKINGINFO lpTrackingInfo ) { static char szFuncName[] = "lineGetCallHubTracking"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "lpTrackingInfo", lpTrackingInfo } }; FUNC_INFO info = { szFuncName, SYNC, 2, params, NULL }; if (Prolog (&info)) { lpTrackingInfo->dwAvailableTracking = LINECALLHUBTRACKING_PROVIDERLEVEL | LINECALLHUBTRACKING_ALLCALLS; } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetCallIDs( HDRVCALL hdCall, LPDWORD lpdwAddressID, LPDWORD lpdwCallID, LPDWORD lpdwRelatedCallID ) { static char szFuncName[] = "lineGetCallIDs"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "lpdwAddressID", lpdwAddressID }, { "lpdwCallID", lpdwCallID }, { "lpdwRelatedCallID", lpdwRelatedCallID } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; if (Prolog (&info)) { try { *lpdwAddressID = ((PDRVCALL) hdCall)->dwAddressID; *lpdwCallID = ((PDRVCALL) hdCall)->dwCallID; *lpdwRelatedCallID = ((PDRVCALL) hdCall)->dwRelatedCallID; if (((PDRVCALL) hdCall)->dwKey != DRVCALL_KEY) { info.lResult = LINEERR_INVALCALLHANDLE; } } except (EXCEPTION_EXECUTE_HANDLER) { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetCallInfo( HDRVCALL hdCall, LPLINECALLINFO lpCallInfo ) { static char szFuncName[] = "lineGetCallInfo"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "lpCallInfo", lpCallInfo } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; PDRVCALL pCall = (PDRVCALL) hdCall; DWORD dwUsedSize; if (Prolog (&info)) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { //lpCallInfo->dwNeededSize //lpCallInfo->dwUsedSize lpCallInfo->dwLineDeviceID = ((PDRVLINE)pCall->pLine)->dwDeviceID; lpCallInfo->dwAddressID = pCall->dwAddressID; lpCallInfo->dwBearerMode = pCall->dwBearerMode; //lpCallInfo->dwRate lpCallInfo->dwMediaMode = pCall->dwMediaMode; lpCallInfo->dwAppSpecific = pCall->dwAppSpecific; lpCallInfo->dwCallID = pCall->dwCallID; lpCallInfo->dwRelatedCallID = pCall->dwRelatedCallID; //lpCallInfo->dwCallParamFlags //lpCallInfo->dwCallStates CopyMemory( &lpCallInfo->DialParams, &pCall->DialParams, sizeof(LINEDIALPARAMS) ); //lpCallInfo->dwOrigin //lpCallInfo->dwReason //lpCallInfo->dwCompletionID //lpCallInfo->dwCountryCode //lpCallInfo->dwTrunk //lpCallInfo->dwCallerIDFlags //lpCallInfo->dwCallerIDSize //lpCallInfo->dwCallerIDOffset //lpCallInfo->dwCallerIDNameSize //lpCallInfo->dwCallerIDNameOffset //lpCallInfo->dwCalledIDFlags //lpCallInfo->dwCalledIDSize //lpCallInfo->dwCalledIDOffset //lpCallInfo->dwCalledIDNameSize //lpCallInfo->dwCalledIDNameOffset //lpCallInfo->dwConnectedIDFlags //lpCallInfo->dwConnectedIDSize //lpCallInfo->dwConnectedIDOffset //lpCallInfo->dwConnectedIDNameSize //lpCallInfo->dwConnectedIDNameOffset //lpCallInfo->dwRedirectionIDFlags //lpCallInfo->dwRedirectionIDSize //lpCallInfo->dwRedirectionIDOffset //lpCallInfo->dwRedirectionIDNameSize //lpCallInfo->dwRedirectionIDNameOffset //lpCallInfo->dwRedirectingIDFlags //lpCallInfo->dwRedirectingIDSize //lpCallInfo->dwRedirectingIDOffset //lpCallInfo->dwRedirectingIDNameSize //lpCallInfo->dwRedirectingIDNameOffset //lpCallInfo->dwDisplaySize //lpCallInfo->dwDisplayOffset //lpCallInfo->dwUserUserInfoSize //lpCallInfo->dwUserUserInfoOffset //lpCallInfo->dwHighLevelCompSize //lpCallInfo->dwHighLevelCompOffset //lpCallInfo->dwLowLevelCompSize //lpCallInfo->dwLowLevelCompOffset //lpCallInfo->dwChargingInfoSize //lpCallInfo->dwChargingInfoOffset //lpCallInfo->dwTerminalModesSize //lpCallInfo->dwTerminalModesOffset //lpCallInfo->dwDevSpecificSize //lpCallInfo->dwDevSpecificOffset if (gESPGlobals.dwSPIVersion >= 0x00020000) { lpCallInfo->dwCallTreatment = pCall->dwTreatment; InsertVarData( lpCallInfo, &lpCallInfo->dwCallDataSize, pCall->pCallData, pCall->dwCallDataSize ); InsertVarData( lpCallInfo, &lpCallInfo->dwSendingFlowspecSize, pCall->pSendingFlowspec, pCall->dwSendingFlowspecSize ); InsertVarData( lpCallInfo, &lpCallInfo->dwReceivingFlowspecSize, pCall->pReceivingFlowspec, pCall->dwReceivingFlowspecSize ); if (gESPGlobals.dwSPIVersion >= 0x00030000) { // no addresstypes now } } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetCallStatus( HDRVCALL hdCall, LPLINECALLSTATUS lpCallStatus ) { DWORD dwCallState, dwCallStateMode; static char szFuncName[] = "lineGetCallStatus"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "lpCallStatus", lpCallStatus } }; PDRVCALL pCall = (PDRVCALL) hdCall; FUNC_INFO info = { szFuncName, SYNC, 2, params }; if (!Prolog (&info)) { return (Epilog (&info)); } EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { dwCallState = pCall->dwCallState; dwCallStateMode = pCall->dwCallStateMode; } else { info.lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (info.lResult == 0) { //lpCallStatus->dwNeededSize //lpCallStatus->dwUsedSize lpCallStatus->dwCallState = dwCallState; lpCallStatus->dwCallStateMode = dwCallStateMode; // // If the call is IDLE we won't let apps do anything with it, // otherwise they can do anything they want to (all valid // 1.0/1.4 LINECALLFEATURE_XXX flags) // switch (dwCallState) { case LINECALLSTATE_IDLE: lpCallStatus->dwCallFeatures = 0; break; default: lpCallStatus->dwCallFeatures = (gESPGlobals.dwSPIVersion == 0x10003 ? AllCallFeatures1_0 : AllCallFeatures1_4); break; } //lpCallStatus->dwDevSpecificSize //lpCallStatus->dwDevSpecificOffset if (gESPGlobals.dwSPIVersion >= 0x00020000) { switch (dwCallState) { case LINECALLSTATE_IDLE: lpCallStatus->dwCallFeatures = LINECALLFEATURE_SETCALLDATA; break; default: lpCallStatus->dwCallFeatures = AllCallFeatures2_0; lpCallStatus->dwCallFeatures2 = AllCallFeaturesTwo; break; } //lpCallStatus->dwCallFeatures2 //lpCallStatus->tStateEntryTime } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetDevCaps( DWORD dwDeviceID, DWORD dwTSPIVersion, DWORD dwExtVersion, LPLINEDEVCAPS lpLineDevCaps ) { static char szFuncName[] = "lineGetDevCaps"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "dwTSPIVersion", dwTSPIVersion }, { "dwExtVersion", dwExtVersion }, { "lpLineDevCaps", lpLineDevCaps } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; PDRVLINE pLine = GetLineFromID (dwDeviceID); char buf[32]; WCHAR wbuf[32]; if (!Prolog (&info)) { return (Epilog (&info)); } InsertVarDataString( lpLineDevCaps, &lpLineDevCaps->dwProviderInfoSize, gszProviderInfo ); InsertVarDataString( lpLineDevCaps, &lpLineDevCaps->dwSwitchInfoSize, L"ESP switch info" ); //smarandb - adding "linedevice specific info", as a Null terminated string ---------- InsertVarDataString( lpLineDevCaps, &lpLineDevCaps->dwDevSpecificSize, L"123" ); //------------------------------------------------------------------------------------ lpLineDevCaps->dwPermanentLineID = (gESPGlobals.dwPermanentProviderID << 16) | (dwDeviceID - gESPGlobals.dwLineDeviceIDBase); // NOTE: win9x doesn't support wsprintfW wsprintfA (buf, "ESP Line %d", dwDeviceID); MultiByteToWideChar( GetACP(), MB_PRECOMPOSED, buf, lstrlen (buf) + 1, wbuf, 20 ); InsertVarDataString( lpLineDevCaps, &lpLineDevCaps->dwLineNameSize, wbuf ); lpLineDevCaps->dwStringFormat = STRINGFORMAT_ASCII; lpLineDevCaps->dwAddressModes = LINEADDRESSMODE_ADDRESSID | LINEADDRESSMODE_DIALABLEADDR; lpLineDevCaps->dwNumAddresses = gESPGlobals.dwNumAddressesPerLine; lpLineDevCaps->dwBearerModes = AllBearerModes1_0; lpLineDevCaps->dwMaxRate = 0x00100000; lpLineDevCaps->dwMediaModes = AllMediaModes1_0; //lpLineDevCaps->dwGenerateToneModes //lpLineDevCaps->dwGenerateToneMaxNumFreq //lpLineDevCaps->dwGenerateDigitModes //lpLineDevCaps->dwMonitorToneMaxNumFreq //lpLineDevCaps->dwMonitorToneMaxNumEntries //lpLineDevCaps->dwMonitorDigitModes //lpLineDevCaps->dwGatherDigitsMinTimeout //lpLineDevCaps->dwGatherDigitsMaxTimeout //lpLineDevCaps->dwMedCtlDigitMaxListSize //lpLineDevCaps->dwMedCtlMediaMaxListSize //lpLineDevCaps->dwMedCtlToneMaxListSize; //lpLineDevCaps->dwMedCtlCallStateMaxListSize //lpLineDevCaps->dwDevCapFlags lpLineDevCaps->dwMaxNumActiveCalls = gESPGlobals.dwNumAddressesPerLine * gESPGlobals.dwNumCallsPerAddress; //lpLineDevCaps->dwAnswerMode //lpLineDevCaps->dwRingModes //lpLineDevCaps->dwLineStates //lpLineDevCaps->dwUUIAcceptSize //lpLineDevCaps->dwUUIAnswerSize //lpLineDevCaps->dwUUIMakeCallSize //lpLineDevCaps->dwUUIDropSize //lpLineDevCaps->dwUUISendUserUserInfoSize //lpLineDevCaps->dwUUICallInfoSize //lpLineDevCaps->MinDialParams //lpLineDevCaps->MaxDialParams //lpLineDevCaps->DefaultDialParams //lpLineDevCaps->dwNumTerminals //lpLineDevCaps->dwTerminalCapsSize //lpLineDevCaps->dwTerminalCapsOffset //lpLineDevCaps->dwTerminalTextEntrySize //lpLineDevCaps->dwTerminalTextSize; //lpLineDevCaps->dwTerminalTextOffset //lpLineDevCaps->dwDevSpecificSize //lpLineDevCaps->dwDevSpecificOffset if (dwTSPIVersion >= 0x00010004) { lpLineDevCaps->dwBearerModes = AllBearerModes1_4; lpLineDevCaps->dwMediaModes = AllMediaModes1_4; lpLineDevCaps->dwLineFeatures = AllLineFeatures1_0; if (dwTSPIVersion >= 0x00020000) { lpLineDevCaps->dwBearerModes = AllBearerModes2_0; lpLineDevCaps->dwLineFeatures = AllLineFeatures2_0; //lpLineDevCaps->dwSettableDevStatus //lpLineDevCaps->dwDeviceClassesSize //lpLineDevCaps->dwDeviceClassesOffset if (dwTSPIVersion >= 0x00020001) { lpLineDevCaps->dwMediaModes = AllMediaModes2_1; if (dwTSPIVersion >= 0x00020002) { *((LPDWORD) &lpLineDevCaps->PermanentLineGuid.Data2) = *((LPDWORD) &lpLineDevCaps->PermanentLineGuid.Data4[0]) = *((LPDWORD) &lpLineDevCaps->PermanentLineGuid.Data4[4]) = DRVLINE_KEY; if (dwTSPIVersion >= 0x00030000) { lpLineDevCaps->dwAddressTypes = LINEADDRESSTYPE_PHONENUMBER | LINEADDRESSTYPE_SDP | LINEADDRESSTYPE_EMAILNAME | LINEADDRESSTYPE_DOMAINNAME | LINEADDRESSTYPE_IPADDRESS; lpLineDevCaps->dwAvailableTracking = LINECALLHUBTRACKING_ALLCALLS; lpLineDevCaps->PermanentLineGuid.Data1 = (long) (dwDeviceID - gESPGlobals.dwLineDeviceIDBase); } } } } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetDevConfig( DWORD dwDeviceID, LPVARSTRING lpDeviceConfig, LPCWSTR lpszDeviceClass ) { static char szFuncName[] = "lineGetDevConfig"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "lpDeviceConfig", lpDeviceConfig }, { "lpszDeviceClass", lpszDeviceClass } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; if (Prolog (&info)) { // BUGBUG TSPI_lineGetDevConfig: fill in dev config } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetExtensionID( DWORD dwDeviceID, DWORD dwTSPIVersion, LPLINEEXTENSIONID lpExtensionID ) { static char szFuncName[] = "lineGetExtensionID"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "dwTSPIVersion", dwTSPIVersion }, { "lpExtensionID", lpExtensionID } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; if (Prolog (&info)) { // BUGBUG TSPI_lineGetExtensionID: fill in ext id } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetIcon( DWORD dwDeviceID, LPCWSTR lpszDeviceClass, LPHICON lphIcon ) { static char szFuncName[] = "lineGetIcon"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "lpszDeviceClass", lpszDeviceClass }, { "lphIcon", lphIcon } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; if (Prolog (&info)) { if (lpszDeviceClass && My_lstrcmpiW ( (WCHAR *) lpszDeviceClass, (WCHAR *) (L"tapi/InvalidDeviceClass") ) == 0) { info.lResult = LINEERR_INVALDEVICECLASS; } else { *lphIcon = gESPGlobals.hIconLine; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetID( HDRVLINE hdLine, DWORD dwAddressID, HDRVCALL hdCall, DWORD dwSelect, LPVARSTRING lpDeviceID, LPCWSTR lpszDeviceClass, HANDLE hTargetProcess ) { static char szFuncName[] = "lineGetID"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "dwAddressID", dwAddressID }, { szhdCall, hdCall }, { "dwSelect", dwSelect, aCallSelects }, { "lpDeviceID", lpDeviceID }, { "lpszDeviceClass", lpszDeviceClass }, { "hTargetProcess", hTargetProcess } }; FUNC_INFO info = { szFuncName, SYNC, 7, params }; PDRVLINE pLine = (PDRVLINE) hdLine; PDRVCALL pCall = (PDRVCALL) hdCall; DWORD i, dwDeviceID, dwNeededSize = sizeof(VARSTRING) + sizeof(DWORD); if (!Prolog (&info)) { return (Epilog (&info)); } for (i = 0; aszDeviceClasses[i]; i++) { if (My_lstrcmpiW( (WCHAR *) lpszDeviceClass, (WCHAR *) aszDeviceClasses[i] ) == 0) { break; } } if (!aszDeviceClasses[i]) { info.lResult = LINEERR_NODEVICE; return (Epilog (&info)); } if (dwSelect == LINECALLSELECT_ADDRESS && dwAddressID >= gESPGlobals.dwNumAddressesPerLine) { info.lResult = LINEERR_INVALADDRESSID; return (Epilog (&info)); } if (lpDeviceID->dwTotalSize < dwNeededSize) { lpDeviceID->dwNeededSize = dwNeededSize; lpDeviceID->dwUsedSize = 3 * sizeof(DWORD); return (Epilog (&info)); } switch (i) { case 0: // tapi/line if (dwSelect == LINECALLSELECT_CALL) { dwDeviceID = ((PDRVLINE) pCall->pLine)->dwDeviceID; } else { dwDeviceID = pLine->dwDeviceID; } break; case 1: // tapi/phone dwDeviceID = gESPGlobals.dwPhoneDeviceIDBase; break; default: dwDeviceID = 0; break; } lpDeviceID->dwNeededSize = lpDeviceID->dwUsedSize = dwNeededSize; lpDeviceID->dwStringFormat = STRINGFORMAT_BINARY; lpDeviceID->dwStringSize = sizeof(DWORD); lpDeviceID->dwStringOffset = sizeof(VARSTRING); *((LPDWORD)(lpDeviceID + 1)) = dwDeviceID; return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetLineDevStatus( HDRVLINE hdLine, LPLINEDEVSTATUS lpLineDevStatus ) { static char szFuncName[] = "lineGetLineDevStatus"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "lpLineDevStatus", lpLineDevStatus } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; PDRVLINE pLine = (PDRVLINE) hdLine; DWORD dwTotalSize, dwNeededSize; if (!Prolog (&info)) { return (Epilog (&info)); } //lpLineDevStatus->dwNeededSize //lpLineDevStatus->dwUsedSize //lpLineDevStatus->dwNumOpens tapi fills this in //lpLineDevStatus->dwOpenMediaModes tapi fills this in // // Safely determine the # of active, on hold, & onhold pending // conference/transfer calls on this line // { DWORD i; PDRVCALL pCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); for (i = 0; i < gESPGlobals.dwNumAddressesPerLine; i++) { for( pCall = pLine->aAddrs[i].pCalls; pCall != NULL; pCall = pCall->pNext ) { switch (pCall->dwCallState) { case LINECALLSTATE_IDLE: continue; case LINECALLSTATE_ONHOLD: lpLineDevStatus->dwNumOnHoldCalls++; continue; case LINECALLSTATE_ONHOLDPENDCONF: case LINECALLSTATE_ONHOLDPENDTRANSFER: lpLineDevStatus->dwNumOnHoldPendCalls++; continue; default: lpLineDevStatus->dwNumActiveCalls++; continue; } } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } lpLineDevStatus->dwLineFeatures = AllLineFeatures1_0; //lpLineDevStatus->dwNumCallCompletions //lpLineDevStatus->dwRingMode //lpLineDevStatus->dwSignalLevel //lpLineDevStatus->dwBatteryLevel //lpLineDevStatus->dwRoamMode lpLineDevStatus->dwDevStatusFlags = LINEDEVSTATUSFLAGS_CONNECTED | LINEDEVSTATUSFLAGS_INSERVICE | pLine->dwMSGWAITFlag; //smarandb #23974 winseqfe //lpLineDevStatus->dwTerminalModesSize //lpLineDevStatus->dwTerminalModesOffset //lpLineDevStatus->dwDevSpecificSize //lpLineDevStatus->dwDevSpecificOffset if (gESPGlobals.dwSPIVersion >= 0x20000) { lpLineDevStatus->dwLineFeatures = AllLineFeatures2_0; lpLineDevStatus->dwAvailableMediaModes = AllMediaModes1_4; //lpLineDevStatus->dwAppInfoSize; tapi fills this in //lpLineDevStatus->dwAppInfoOffset; tapi fills this in if (gESPGlobals.dwSPIVersion >= 0x20001) { lpLineDevStatus->dwAvailableMediaModes = AllMediaModes2_1; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineGetNumAddressIDs( HDRVLINE hdLine, LPDWORD lpdwNumAddressIDs ) { static char szFuncName[] = "lineGetNumAddressIDs"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "lpdwNumAddressIDs", lpdwNumAddressIDs } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; PDRVLINE pLine = (PDRVLINE) hdLine; if (Prolog (&info)) { *lpdwNumAddressIDs = gESPGlobals.dwNumAddressesPerLine; } return (Epilog (&info)); } void FAR PASCAL TSPI_lineHold_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam2; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1; if (pAsyncReqInfo->lResult == 0) { pAsyncReqInfo->lResult = SetCallState( pCall, dwCallInstThen, LINECALLSTATE_CONNECTED, LINECALLSTATE_ONHOLD, 0, TRUE ); } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineHold( DRV_REQUESTID dwRequestID, HDRVCALL hdCall ) { static char szFuncName[] = "lineHold"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall } }; FUNC_INFO info = { szFuncName, ASYNC, 2, params, TSPI_lineHold_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam2 = dwCallInstance; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } void FAR PASCAL TSPI_lineMakeCall_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD bDestAddress = (DWORD) pAsyncReqInfo->dwParam3, bValidLineID = (DWORD) pAsyncReqInfo->dwParam4, dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam6, dwCallInstNow; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1, pDestCall = (PDRVCALL) pAsyncReqInfo->dwParam2; PDRVLINE pDestLine = (PDRVLINE) pAsyncReqInfo->dwParam5; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { if (bDestAddress) { if (bValidLineID && !pDestCall) { SetCallState( pCall, dwCallInstThen, 0xffffffff, LINECALLSTATE_BUSY, LINEBUSYMODE_UNAVAIL, TRUE ); } else { SetCallState( pCall, dwCallInstThen, 0xffffffff, LINECALLSTATE_DIALING, 0, FALSE ); SetCallState( pCall, dwCallInstThen, 0xffffffff, LINECALLSTATE_RINGBACK, 0, TRUE ); } if (pDestCall) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, &dwCallInstNow) && dwCallInstNow == dwCallInstThen) { SendLineEvent( pDestLine, NULL, LINE_NEWCALL, (ULONG_PTR) pDestCall, (ULONG_PTR) &pDestCall->htCall, 0 ); if (pDestCall->htCall != NULL) { SetCallState( pDestCall, pDestCall->dwCallInstance, 0xffffffff, LINECALLSTATE_OFFERING, 0, TRUE ); } else { FreeCall (pDestCall, pDestCall->dwCallInstance); } } else { FreeCall (pDestCall, pDestCall->dwCallInstance); } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } } else { SetCallState( pCall, dwCallInstThen, 0xffffffff, LINECALLSTATE_DIALTONE, 0, TRUE ); } } else { FreeCall (pCall, dwCallInstThen); if (pDestCall) { FreeCall (pDestCall, pDestCall->dwCallInstance); } } } LONG TSPIAPI TSPI_lineMakeCall( DRV_REQUESTID dwRequestID, HDRVLINE hdLine, HTAPICALL htCall, LPHDRVCALL lphdCall, LPCWSTR lpszDestAddress, DWORD dwCountryCode, LPLINECALLPARAMS const lpCallParams ) { static char szFuncName[] = "lineMakeCall"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdLine, hdLine }, { "htCall", htCall }, { "lphdCall", lphdCall }, { "lpszDestAddress", lpszDestAddress }, { "dwCountryCode", dwCountryCode }, { szlpCallParams, lpCallParams } }; FUNC_INFO info = { szFuncName, ASYNC, 7, params, TSPI_lineMakeCall_postProcess }; if (Prolog (&info)) { BOOL bValidLineID = FALSE; LONG lResult; PDRVCALL pCall, pDestCall; PDRVLINE pLine = (PDRVLINE) hdLine, pDestLine; if ((lResult = AllocCall (pLine, htCall, lpCallParams, &pCall)) == 0) { *lphdCall = (HDRVCALL) pCall; CreateIncomingCall( lpszDestAddress, lpCallParams, pCall, &bValidLineID, &pDestLine, &pDestCall ); info.pAsyncReqInfo->dwParam1 = pCall; info.pAsyncReqInfo->dwParam2 = pDestCall; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) lpszDestAddress; info.pAsyncReqInfo->dwParam4 = (ULONG_PTR) bValidLineID; info.pAsyncReqInfo->dwParam5 = pDestLine; info.pAsyncReqInfo->dwParam6 = pCall->dwCallInstance; } else { info.lResult = lResult; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineMonitorDigits( HDRVCALL hdCall, DWORD dwDigitModes ) { static char szFuncName[] = "lineMonitorDigits"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "dwDigitModes", dwDigitModes, aDigitModes } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; PDRVCALL pCall = (PDRVCALL) hdCall; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineMonitorMedia( HDRVCALL hdCall, DWORD dwMediaModes ) { static char szFuncName[] = "lineMonitorMedia"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "dwMediaModes", dwMediaModes, aMediaModes } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; PDRVCALL pCall = (PDRVCALL) hdCall; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineMonitorTones( HDRVCALL hdCall, DWORD dwToneListID, LPLINEMONITORTONE const lpToneList, DWORD dwNumEntries ) { static char szFuncName[] = "lineMonitorTones"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "dwToneListID", dwToneListID }, { "lpToneList", lpToneList }, { "dwNumEntries", dwNumEntries } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; PDRVCALL pCall = (PDRVCALL) hdCall; if (Prolog (&info)) { DWORD dwLastToneListID = 0; HTAPICALL htCall; HTAPILINE htLine; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { htLine = ((PDRVLINE) pCall->pLine)->htLine; htCall = pCall->htCall; if (gbAutoGatherGenerateMsgs) { dwLastToneListID = dwToneListID; } else { dwLastToneListID = pCall->dwMonitorToneListID; pCall->dwMonitorToneListID = dwToneListID; } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (dwLastToneListID) { (gESPGlobals.pfnLineEvent)( htLine, htCall, LINE_MONITORTONE, 0, dwLastToneListID, 0 ); } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineNegotiateExtVersion( DWORD dwDeviceID, DWORD dwTSPIVersion, DWORD dwLowVersion, DWORD dwHighVersion, LPDWORD lpdwExtVersion ) { static char szFuncName[] = "lineNegotiateExtVersion"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "dwTSPIVersion", dwTSPIVersion }, { "dwLowVersion", dwLowVersion }, { "dwHighVersion", dwHighVersion }, { "lpdwExtVersion", lpdwExtVersion } }; FUNC_INFO info = { szFuncName, SYNC, 5, params }; if (Prolog (&info)) { if (dwLowVersion == 0 || dwHighVersion == 0xffffffff || dwLowVersion > dwHighVersion) { info.lResult = LINEERR_INCOMPATIBLEEXTVERSION; } else { *lpdwExtVersion = dwHighVersion; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineNegotiateTSPIVersion( DWORD dwDeviceID, DWORD dwLowVersion, DWORD dwHighVersion, LPDWORD lpdwTSPIVersion ) { static char szFuncName[] = "lineNegotiateTSPIVersion"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "dwLowVersion", dwLowVersion }, { "dwHighVersion", dwHighVersion }, { "lpdwTSPIVersion", lpdwTSPIVersion } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; if (Prolog (&info)) { *lpdwTSPIVersion = gESPGlobals.dwSPIVersion; } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineOpen( DWORD dwDeviceID, HTAPILINE htLine, LPHDRVLINE lphdLine, DWORD dwTSPIVersion, LINEEVENT lpfnEventProc ) { static char szFuncName[] = "lineOpen"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "htLine", htLine }, { "lphdLine", lphdLine }, { "dwTSPIVersion", dwTSPIVersion }, { "lpfnEventProc", lpfnEventProc } }; FUNC_INFO info = { szFuncName, SYNC, 5, params }; PDRVLINE pLine; if (Prolog (&info)) { if ((pLine = GetLineFromID (dwDeviceID))) { pLine->htLine = htLine; *lphdLine = (HDRVLINE) pLine; WriteEventBuffer( pLine->dwDeviceID, WIDGETTYPE_LINE, (ULONG_PTR) pLine, (ULONG_PTR) htLine, 0, 0 ); } else { info.lResult = LINEERR_OPERATIONFAILED; } } return (Epilog (&info)); } void FAR PASCAL TSPI_linePark_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam2, dwParkIndex = (DWORD) pAsyncReqInfo->dwParam4; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1, pParkedCall = (PDRVCALL) pAsyncReqInfo->dwParam3, pDestCall; if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.CallListCritSec); pDestCall = pCall->pDestCall; pCall->pDestCall = NULL; pParkedCall->bConnectedToDestCall = pCall->bConnectedToDestCall; pAsyncReqInfo->lResult = SetCallState( pCall, dwCallInstThen, LINECALLSTATE_CONNECTED, LINECALLSTATE_IDLE, 0, TRUE ); LeaveCriticalSection (&gESPGlobals.CallListCritSec); } DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pDestCall, NULL)) { pDestCall->pDestCall = pParkedCall; pParkedCall->pDestCall = pDestCall; } // BUGBUG TSPI_linePark: what if dest call state chg while buddy parked??? LeaveCriticalSection (&gESPGlobals.CallListCritSec); } else { // // Clean up parked call // if (pParkedCall->pSendingFlowspec) { DrvFree (pParkedCall->pSendingFlowspec); } if (pParkedCall->pReceivingFlowspec) { DrvFree (pParkedCall->pReceivingFlowspec); } if (pParkedCall->pCallData) { DrvFree (pParkedCall->pCallData); } DrvFree (pParkedCall); gaParkedCalls[dwParkIndex] = NULL; } } LONG TSPIAPI TSPI_linePark( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, DWORD dwParkMode, LPCWSTR lpszDirAddress, LPVARSTRING lpNonDirAddress ) { static char szFuncName[] = "linePark"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "dwParkMode", dwParkMode }, { "lpszDirAddress", lpszDirAddress }, { "lpNonDirAddress", lpNonDirAddress } }; FUNC_INFO info = { szFuncName, ASYNC, 5, params, NULL }; PDRVCALL pCall = (PDRVCALL) hdCall; if (Prolog (&info)) { if (dwParkMode == LINEPARKMODE_DIRECTED) { info.lResult = TransferCall( &info, pCall, LINECALLSTATE_CONNECTED | LINECALLSTATE_ONHOLD, LINECALLSTATE_ONHOLD, lpszDirAddress ); } else { // // First check to see if buf is big enough to return parked addr // if (lpNonDirAddress->dwTotalSize < (sizeof (VARSTRING) + 9 * sizeof(WCHAR))) // L"9999#123" { lpNonDirAddress->dwNeededSize = sizeof (VARSTRING) + 9 * sizeof(WCHAR); info.lResult = LINEERR_STRUCTURETOOSMALL; return (Epilog (&info)); } EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL) == FALSE) { info.lResult = LINEERR_INVALCALLHANDLE; } else if (pCall->dwCallState != LINECALLSTATE_CONNECTED && pCall->dwCallState != LINECALLSTATE_ONHOLD) { info.lResult = LINEERR_INVALCALLSTATE; } else { DWORD i; for (i = 0; i < MAX_NUM_PARKED_CALLS; i++) { if (gaParkedCalls[i] == NULL) { break; } } if (i < MAX_NUM_PARKED_CALLS) { // // Create a new call struct, dup-ing all the info of // the existing call, & stick it in the parking place // DWORD dwStringSize; PDRVCALL pParkedCall; if ((pParkedCall = DrvAlloc (sizeof (DRVCALL)))) { char buf[16]; CopyMemory( &pParkedCall->dwMediaMode, &pCall->dwMediaMode, 8 * sizeof (DWORD) + sizeof (LINEDIALPARAMS) ); if (pCall->pSendingFlowspec && (pParkedCall->pSendingFlowspec = DrvAlloc (pCall->dwSendingFlowspecSize))) { pParkedCall->dwSendingFlowspecSize = pCall->dwSendingFlowspecSize; } if (pCall->pReceivingFlowspec && (pParkedCall->pReceivingFlowspec = DrvAlloc (pCall->dwReceivingFlowspecSize))) { pParkedCall->dwReceivingFlowspecSize = pCall->dwReceivingFlowspecSize; } if (pCall->pCallData && (pParkedCall->pCallData = DrvAlloc (pCall->dwCallDataSize))) { pParkedCall->dwCallDataSize = pCall->dwCallDataSize; } pParkedCall->dwCallInstance = gdwCallInstance++; pParkedCall->dwCallID = pCall->dwCallID; pParkedCall->dwRelatedCallID = pCall->dwRelatedCallID; pParkedCall->dwAddressType = pCall->dwAddressType; gaParkedCalls[i] = pParkedCall; wsprintfA (buf, "9999#%d", i); dwStringSize = (DWORD) MultiByteToWideChar( GetACP(), MB_PRECOMPOSED, (LPCSTR) buf, lstrlenA (buf) + 1, (LPWSTR) (lpNonDirAddress + 1), 9 ) * sizeof (WCHAR); lpNonDirAddress->dwNeededSize += dwStringSize; lpNonDirAddress->dwUsedSize += dwStringSize; lpNonDirAddress->dwStringFormat = STRINGFORMAT_UNICODE; lpNonDirAddress->dwStringSize = dwStringSize; lpNonDirAddress->dwStringOffset = sizeof (VARSTRING); info.pAsyncReqInfo->pfnPostProcessProc = (FARPROC) TSPI_linePark_postProcess; info.pAsyncReqInfo->dwParam1 = pCall; info.pAsyncReqInfo->dwParam2 = pCall->dwCallInstance; info.pAsyncReqInfo->dwParam3 = pParkedCall; info.pAsyncReqInfo->dwParam4 = i; } else { info.lResult = LINEERR_NOMEM; } } else { ShowStr( TRUE, "TSPI_linePark (undirected): no available " \ "parking spaces" ); info.lResult = LINEERR_OPERATIONFAILED; } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } } return (Epilog (&info)); } void FAR PASCAL TSPI_linePickup_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam2; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { SetCallState( pCall, dwCallInstThen, 0xffffffff, LINECALLSTATE_OFFERING, 0, TRUE ); } else { FreeCall (pCall, dwCallInstThen); } } LONG TSPIAPI TSPI_linePickup( DRV_REQUESTID dwRequestID, HDRVLINE hdLine, DWORD dwAddressID, HTAPICALL htCall, LPHDRVCALL lphdCall, LPCWSTR lpszDestAddress, LPCWSTR lpszGroupID ) { static char szFuncName[] = "linePickup"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdLine, hdLine }, { "dwAddressID", dwAddressID }, { "htCall", htCall }, { "lphdCall", lphdCall }, { "lpszDestAddress", lpszDestAddress }, { "lpszGroupID", lpszGroupID } }; FUNC_INFO info = { szFuncName, ASYNC, 7, params, TSPI_linePickup_postProcess }; if (Prolog (&info)) { LONG lResult; PDRVCALL pCall; if ((lResult = AllocCall( (PDRVLINE) hdLine, htCall, NULL, &pCall )) == 0) { // BUGBUG deal w/ addr id *lphdCall = (HDRVCALL) pCall; info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) pCall; info.pAsyncReqInfo->dwParam2 = pCall->dwCallInstance; } else { info.lResult = lResult; } } return (Epilog (&info)); } void FAR PASCAL TSPI_linePrepareAddToConference_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwConfCallInstThen = (DWORD) pAsyncReqInfo->dwParam1, dwConsultCallInstThen = (DWORD) pAsyncReqInfo->dwParam4; PDRVCALL pConfCall = (PDRVCALL) pAsyncReqInfo->dwParam2, pConsultCall = (PDRVCALL) pAsyncReqInfo->dwParam3; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { SetCallState( pConfCall, dwConfCallInstThen, LINECALLSTATE_CONNECTED, LINECALLSTATE_ONHOLDPENDCONF, 0, TRUE ); SetCallState( pConsultCall, dwConsultCallInstThen, 0xffffffff, LINECALLSTATE_DIALTONE, 0, TRUE ); } else { FreeCall (pConsultCall, dwConsultCallInstThen); } } LONG TSPIAPI TSPI_linePrepareAddToConference( DRV_REQUESTID dwRequestID, HDRVCALL hdConfCall, HTAPICALL htConsultCall, LPHDRVCALL lphdConsultCall, LPLINECALLPARAMS const lpCallParams ) { LONG lResult; PDRVCALL pConsultCall; static char szFuncName[] = "linePrepareAddToConference"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { "hdConfCall", hdConfCall }, { "htConsultCall", htConsultCall }, { "lphdConsultCall", lphdConsultCall }, { szlpCallParams, lpCallParams } }; FUNC_INFO info = { szFuncName, ASYNC, 5, params, TSPI_linePrepareAddToConference_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdConfCall, &dwCallInstance)) { info.pAsyncReqInfo->dwParam1 = dwCallInstance; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) hdConfCall; if ((lResult = AllocCall( ((PDRVCALL) hdConfCall)->pLine, htConsultCall, lpCallParams, &pConsultCall )) == 0) { info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) pConsultCall; info.pAsyncReqInfo->dwParam4 = pConsultCall->dwCallInstance; *lphdConsultCall = (HDRVCALL) pConsultCall; } else { info.lResult = lResult; } } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineRedirect( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPCWSTR lpszDestAddress, DWORD dwCountryCode ) { static char szFuncName[] = "lineRedirect"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpszDestAddress", lpszDestAddress }, { "dwCountryCode", dwCountryCode } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, NULL }; PDRVCALL pCall = (PDRVCALL) hdCall; if (Prolog (&info)) { info.lResult = TransferCall( &info, (PDRVCALL) hdCall, LINECALLSTATE_OFFERING, LINECALLSTATE_OFFERING, lpszDestAddress ); } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineReleaseUserUserInfo( DRV_REQUESTID dwRequestID, HDRVCALL hdCall ) { static char szFuncName[] = "lineReleaseUserUserInfo"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall } }; FUNC_INFO info = { szFuncName, ASYNC, 2, params, NULL }; if (Prolog (&info)) { } return (Epilog (&info)); } void FAR PASCAL TSPI_lineRemoveFromConference_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { if (pAsyncReqInfo->lResult == 0) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam2; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1; EnterCriticalSection (&gESPGlobals.CallListCritSec); if ((pAsyncReqInfo->lResult = SetCallState( pCall, dwCallInstThen, LINECALLSTATE_CONFERENCED, LINECALLSTATE_CONNECTED, 0, TRUE )) == 0) { PDRVCALL pCall2 = (PDRVCALL) pCall->pConfParent; while (pCall2 && (pCall2->pNextConfChild != pCall)) { pCall2 = pCall2->pNextConfChild; } if (pCall2) { pCall2->pNextConfChild = pCall->pNextConfChild; } pCall->pConfParent = NULL; /* pCall->dwRelatedCallID = 0; SendLineEvent( pCall->pLine, pCall, LINE_CALLINFO, LINECALLINFOSTATE_RELATEDCALLID, 0, 0 ); */ // create a new callid for the break away conf leg // this create a new call hub pCall->dwCallID = (++gdwCallID ? gdwCallID : ++gdwCallID); SendLineEvent( pCall->pLine, pCall, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); if (pCall->pDestCall) { // BUGBUG chg buddy's call hub id, and check to see if // buddy is in a conf (if so will need to munge // the conf too (?) // give the call's buddy the same callid, this puts it // into the same call hub pCall->pDestCall->dwCallID = pCall->dwCallID; SendLineEvent( pCall->pDestCall->pLine, pCall->pDestCall, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineRemoveFromConference( DRV_REQUESTID dwRequestID, HDRVCALL hdCall ) { static char szFuncName[] = "lineRemoveFromConference"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall } }; FUNC_INFO info = { szFuncName, ASYNC, 2, params, TSPI_lineRemoveFromConference_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam2 = dwCallInstance; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSecureCall( DRV_REQUESTID dwRequestID, HDRVCALL hdCall ) { static char szFuncName[] = "lineSecureCall"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall } }; FUNC_INFO info = { szFuncName, ASYNC, 2, params, NULL }; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSelectExtVersion( HDRVLINE hdLine, DWORD dwExtVersion ) { static char szFuncName[] = "lineSelectExtVersion"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "dwExtVersion", dwExtVersion } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSendUserUserInfo( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPCSTR lpsUserUserInfo, DWORD dwSize ) { static char szFuncName[] = "lineSendUserUserInfo"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpsUserUserInfo", lpsUserUserInfo }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, NULL }; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetAppSpecific( HDRVCALL hdCall, DWORD dwAppSpecific ) { static char szFuncName[] = "lineSetAppSpecific"; FUNC_PARAM params[] = { { szhdCall, hdCall }, { "dwAppSpecific", dwAppSpecific } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; if (Prolog (&info)) { PDRVCALL pCall = (PDRVCALL) hdCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { if (pCall->dwAppSpecific != dwAppSpecific) { pCall->dwAppSpecific = dwAppSpecific; SendLineEvent( pCall->pLine, pCall, LINE_CALLINFO, LINECALLINFOSTATE_APPSPECIFIC, 0, 0 ); } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } return (Epilog (&info)); } void FAR PASCAL TSPI_lineSetCallData_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam1, dwCallInstNow, dwCallDataSize = (DWORD) pAsyncReqInfo->dwParam4; LPVOID pCallData = (LPVOID) pAsyncReqInfo->dwParam3, pToFree; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam2; if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, &dwCallInstNow) && dwCallInstNow == dwCallInstThen) { pToFree = pCall->pCallData; pCall->pCallData = pCallData; pCall->dwCallDataSize = dwCallDataSize; SendLineEvent( pCall->pLine, pCall, LINE_CALLINFO, LINECALLINFOSTATE_CALLDATA, 0, 0 ); } else { pToFree = NULL; pAsyncReqInfo->lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); DrvFree (pToFree); } DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult != 0) { DrvFree (pCallData); } } LONG TSPIAPI TSPI_lineSetCallData( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPVOID lpCallData, DWORD dwSize ) { static char szFuncName[] = "lineSetCallData"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpCallData", lpCallData }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_lineSetCallData_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { LPVOID pCallData; if (dwSize) { if ((pCallData = DrvAlloc (dwSize))) { CopyMemory (pCallData, lpCallData, dwSize); } else { info.lResult = LINEERR_NOMEM; } } else { pCallData = NULL; } info.pAsyncReqInfo->dwParam1 = dwCallInstance; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) pCallData; info.pAsyncReqInfo->dwParam4 = (ULONG_PTR) dwSize; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetCallHubTracking( HDRVLINE hdLine, LPLINECALLHUBTRACKINGINFO lpTrackingInfo ) { static char szFuncName[] = "lineSetCallHubTracking"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "lpTrackingInfo", lpTrackingInfo } }; FUNC_INFO info = { szFuncName, SYNC, 2, params, NULL }; if (Prolog (&info)) { // BUGBUG } return (Epilog (&info)); } void FAR PASCAL TSPI_lineSetCallParams_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam1, dwCallInstNow, dwBearerMode = (DWORD) pAsyncReqInfo->dwParam3, dwMinRate = (DWORD) pAsyncReqInfo->dwParam4, dwMaxRate = (DWORD) pAsyncReqInfo->dwParam5; PDRVCALL pCall = pAsyncReqInfo->dwParam2; LPLINEDIALPARAMS pDialParams = pAsyncReqInfo->dwParam6; if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, &dwCallInstNow) && dwCallInstNow == dwCallInstThen) { DWORD dwCallInfoStates = 0; if (pCall->dwBearerMode != dwBearerMode) { pCall->dwBearerMode = dwBearerMode; dwCallInfoStates |= LINECALLINFOSTATE_BEARERMODE; } if (pCall->dwMinRate != dwMinRate || pCall->dwMaxRate != dwMaxRate) { pCall->dwMinRate = dwMinRate; pCall->dwMaxRate = dwMaxRate; dwCallInfoStates |= LINECALLINFOSTATE_RATE; } if (pDialParams && (pCall->DialParams.dwDialPause != pDialParams->dwDialPause || pCall->DialParams.dwDialSpeed != pDialParams->dwDialSpeed || pCall->DialParams.dwDigitDuration != pDialParams->dwDigitDuration || pCall->DialParams.dwWaitForDialtone != pDialParams->dwWaitForDialtone)) { pCall->DialParams.dwDialPause = pDialParams->dwDialPause; pCall->DialParams.dwDialSpeed = pDialParams->dwDialSpeed; pCall->DialParams.dwDigitDuration = pDialParams->dwDigitDuration; pCall->DialParams.dwWaitForDialtone = pDialParams->dwWaitForDialtone; dwCallInfoStates |= LINECALLINFOSTATE_DIALPARAMS; } if (dwCallInfoStates) { SendLineEvent( pCall->pLine, pCall, LINE_CALLINFO, dwCallInfoStates, 0, 0 ); } } else { pAsyncReqInfo->lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } DoCompletion (pAsyncReqInfo, bAsync); if (pDialParams) { DrvFree (pDialParams); } } LONG TSPIAPI TSPI_lineSetCallParams( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, DWORD dwBearerMode, DWORD dwMinRate, DWORD dwMaxRate, LPLINEDIALPARAMS const lpDialParams ) { static char szFuncName[] = "lineSetCallParams"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "dwBearerMode", dwBearerMode, aBearerModes }, { "dwMinRate", dwMinRate }, { "dwMaxRate", dwMaxRate }, { "lpDialParams", lpDialParams } }; FUNC_INFO info = { szFuncName, ASYNC, 6, params, TSPI_lineSetCallParams_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { info.pAsyncReqInfo->dwParam1 = dwCallInstance; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam3 = dwBearerMode; info.pAsyncReqInfo->dwParam4 = dwMinRate; info.pAsyncReqInfo->dwParam5 = dwMaxRate; if (lpDialParams) { LPLINEDIALPARAMS pDialParams; if ((pDialParams = DrvAlloc (sizeof (LINEDIALPARAMS)))) { CopyMemory( pDialParams, lpDialParams, sizeof (LINEDIALPARAMS) ); info.pAsyncReqInfo->dwParam8 = (ULONG_PTR) pDialParams; } else { info.lResult = LINEERR_NOMEM; } } } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } void FAR PASCAL TSPI_lineSetCallQualityOfService_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam1, dwCallInstNow, dwSendingFlowspecSize = (DWORD) pAsyncReqInfo->dwParam4, dwReceivingFlowspecSize = (DWORD) pAsyncReqInfo->dwParam6; LPVOID pSendingFlowspec = (LPVOID) pAsyncReqInfo->dwParam3, pReceivingFlowspec = (LPVOID) pAsyncReqInfo->dwParam5, pToFree, pToFree2; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam2; if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, &dwCallInstNow) && dwCallInstNow == dwCallInstThen) { pToFree = pCall->pSendingFlowspec; pCall->pSendingFlowspec = pSendingFlowspec; pCall->dwSendingFlowspecSize = dwSendingFlowspecSize; pToFree2 = pCall->pReceivingFlowspec; pCall->pReceivingFlowspec = pReceivingFlowspec; pCall->dwReceivingFlowspecSize = dwReceivingFlowspecSize; SendLineEvent( pCall->pLine, pCall, LINE_CALLINFO, LINECALLINFOSTATE_QOS, 0, 0 ); } else { pToFree = pToFree2 = NULL; pAsyncReqInfo->lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); DrvFree (pToFree); DrvFree (pToFree2); } DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult != 0) { DrvFree (pSendingFlowspec); DrvFree (pReceivingFlowspec); } } LONG TSPIAPI TSPI_lineSetCallQualityOfService( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, LPVOID lpSendingFlowspec, DWORD dwSendingFlowspecSize, LPVOID lpReceivingFlowspec, DWORD dwReceivingFlowspecSize ) { static char szFuncName[] = "lineSetCallQualityOfService"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "lpSendingFlowspec", lpSendingFlowspec }, { "dwSendingFlowspecSize", dwSendingFlowspecSize }, { "lpReceivingFlowspec", lpReceivingFlowspec }, { "dwReceivingFlowspecSize", dwReceivingFlowspecSize } }; FUNC_INFO info = { szFuncName, ASYNC, 6, params, TSPI_lineSetCallQualityOfService_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { LPVOID pSendingFlowspec, pReceivingFlowspec; if (dwSendingFlowspecSize) { if ((pSendingFlowspec = DrvAlloc (dwSendingFlowspecSize))) { CopyMemory( pSendingFlowspec, lpSendingFlowspec, dwSendingFlowspecSize ); } else { info.lResult = LINEERR_NOMEM; goto TSPI_lineSetCallQualityOfService_epilog; } } else { pSendingFlowspec = NULL; } if (dwReceivingFlowspecSize) { if ((pReceivingFlowspec = DrvAlloc (dwReceivingFlowspecSize))) { CopyMemory( pReceivingFlowspec, lpReceivingFlowspec, dwReceivingFlowspecSize ); } else { info.lResult = LINEERR_NOMEM; if (pSendingFlowspec) { DrvFree (pSendingFlowspec); } goto TSPI_lineSetCallQualityOfService_epilog; } } else { pReceivingFlowspec = NULL; } info.pAsyncReqInfo->dwParam1 = dwCallInstance; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) pSendingFlowspec; info.pAsyncReqInfo->dwParam4 = (ULONG_PTR) dwSendingFlowspecSize; info.pAsyncReqInfo->dwParam5 = (ULONG_PTR) pReceivingFlowspec; info.pAsyncReqInfo->dwParam6 = (ULONG_PTR) dwReceivingFlowspecSize; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } TSPI_lineSetCallQualityOfService_epilog: return (Epilog (&info)); } void FAR PASCAL TSPI_lineSetCallTreatment_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam1, dwCallInstNow, dwTreatment = (DWORD) pAsyncReqInfo->dwParam3; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam2; if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, &dwCallInstNow) && dwCallInstNow == dwCallInstThen) { if (pCall->dwTreatment != dwTreatment) { pCall->dwTreatment = dwTreatment; SendLineEvent( pCall->pLine, pCall, LINE_CALLINFO, LINECALLINFOSTATE_TREATMENT, 0, 0 ); } } else { pAsyncReqInfo->lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineSetCallTreatment( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, DWORD dwTreatment ) { static char szFuncName[] = "lineSetCallTreatment"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "dwTreatment", dwTreatment } }; FUNC_INFO info = { szFuncName, ASYNC, 3, params, TSPI_lineSetCallTreatment_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { info.pAsyncReqInfo->dwParam1 = dwCallInstance; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam3 = dwTreatment; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetCurrentLocation( DWORD dwLocation ) { static char szFuncName[] = "lineSetCurrentLocation"; FUNC_PARAM params[] = { { "dwLocation", dwLocation } }; FUNC_INFO info = { szFuncName, SYNC, 1, params }; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetDefaultMediaDetection( HDRVLINE hdLine, DWORD dwMediaModes ) { static char szFuncName[] = "lineSetDefaultMediaDetection"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "dwMediaModes", dwMediaModes, aMediaModes } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; PDRVLINE pLine = (PDRVLINE) hdLine; if (Prolog (&info)) { pLine->dwMediaModes = dwMediaModes; } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetDevConfig( DWORD dwDeviceID, LPVOID const lpDeviceConfig, DWORD dwSize, LPCWSTR lpszDeviceClass ) { static char szFuncName[] = "lineSetDevConfig"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "lpDeviceConfig", lpDeviceConfig }, { szdwSize, dwSize }, { "lpszDeviceClass", lpszDeviceClass } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetLineDevStatus( DRV_REQUESTID dwRequestID, HDRVLINE hdLine, DWORD dwStatusToChange, DWORD fStatus ) { static char szFuncName[] = "lineSetLineDevStatus"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdLine, hdLine }, { "dwStatusToChange", dwStatusToChange }, { "fStatus", fStatus } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, NULL }; PDRVLINE pLine = (PDRVLINE) hdLine; if (Prolog (&info)) { // // smarandb #23974 winseqfe: // if (dwStatusToChange == LINEDEVSTATUSFLAGS_MSGWAIT) { // save new MSGWAIT value pLine->dwMSGWAITFlag = fStatus?LINEDEVSTATUSFLAGS_MSGWAIT:0; // send event to notify that value has changed; // Note: real TSP-s should send the event only if the MSGWAIT value has really changed // (in other words don't send the event if the same MSGWAIT value is set twice in a row) // Here, we will send the event even if the value didn't change, // because we want to help testing winseqfe bug #23974 (tapi3.dll possible infinite loop) SendLineEvent( pLine, NULL, LINE_LINEDEVSTATE, fStatus?LINEDEVSTATE_MSGWAITON:LINEDEVSTATE_MSGWAITOFF, 0, 0 ); } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetMediaControl( HDRVLINE hdLine, DWORD dwAddressID, HDRVCALL hdCall, DWORD dwSelect, LPLINEMEDIACONTROLDIGIT const lpDigitList, DWORD dwDigitNumEntries, LPLINEMEDIACONTROLMEDIA const lpMediaList, DWORD dwMediaNumEntries, LPLINEMEDIACONTROLTONE const lpToneList, DWORD dwToneNumEntries, LPLINEMEDIACONTROLCALLSTATE const lpCallStateList, DWORD dwCallStateNumEntries ) { static char szFuncName[] = "lineSetMediaControl"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "dwAddressID", dwAddressID }, { szhdCall, hdCall }, { "dwSelect", dwSelect, aCallSelects }, { "lpDigitList", lpDigitList }, { "dwDigitNumEntries", dwDigitNumEntries }, { "lpMediaList", lpMediaList }, { "dwMediaNumEntries", dwMediaNumEntries }, { "lpToneList", lpToneList }, { "dwToneNumEntries", dwToneNumEntries }, { "lpCallStateList", lpCallStateList }, { "dwCallStateNumEntries", dwCallStateNumEntries } }; FUNC_INFO info = { szFuncName, SYNC, 12, params }; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetMediaMode( HDRVCALL hdCall, DWORD dwMediaMode ) { static char szFuncName[] = "lineSetMediaMode"; FUNC_PARAM params[] = { { szhdCall, szhdCall }, { "dwMediaMode", dwMediaMode, aMediaModes } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; if (Prolog (&info)) { PDRVCALL pCall = (PDRVCALL) hdCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL)) { if (pCall->dwMediaMode != dwMediaMode) { pCall->dwMediaMode = dwMediaMode; SendLineEvent( pCall->pLine, pCall, LINE_CALLINFO, LINECALLINFOSTATE_MEDIAMODE, 0, 0 ); } } else { info.lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetStatusMessages( HDRVLINE hdLine, DWORD dwLineStates, DWORD dwAddressStates ) { static char szFuncName[] = "lineSetStatusMessages"; FUNC_PARAM params[] = { { szhdLine, hdLine }, { "dwLineStates", dwLineStates, aLineStates }, { "dwAddressStates", dwAddressStates, aAddressStates } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; if (Prolog (&info)) { } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineSetTerminal( DRV_REQUESTID dwRequestID, HDRVLINE hdLine, DWORD dwAddressID, HDRVCALL hdCall, DWORD dwSelect, DWORD dwTerminalModes, DWORD dwTerminalID, DWORD bEnable ) { static char szFuncName[] = "lineSetTerminal"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdLine, hdLine }, { "dwAddressID", dwAddressID }, { szhdCall, hdCall }, { "dwSelect", dwSelect, aCallSelects }, { "dwTerminalModes", dwTerminalModes, aTerminalModes }, { "dwTerminalID", dwTerminalID }, { "bEnable", bEnable } }; FUNC_INFO info = { szFuncName, ASYNC, 8, params, NULL }; if (Prolog (&info)) { } return (Epilog (&info)); } void FAR PASCAL TSPI_lineSetupConference_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam1, dwConfCallInstThen = (DWORD) pAsyncReqInfo->dwParam4, dwConsultCallInstThen = (DWORD) pAsyncReqInfo->dwParam6; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam2, pConfCall = (PDRVCALL) pAsyncReqInfo->dwParam3, pConsultCall = (PDRVCALL) pAsyncReqInfo->dwParam5; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (SetCallState( pConfCall, dwConfCallInstThen, 0xffffffff, // we created this call right now - no initial state reqs. LINECALLSTATE_ONHOLDPENDCONF, 0, TRUE ) == 0) { /* pConfCall->dwCallID = pCall->dwCallID; SendLineEvent( pConfCall->pLine, pConfCall, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); */ if (pCall && SetCallState( pCall, dwCallInstThen, LINECALLSTATE_CONNECTED, LINECALLSTATE_CONFERENCED, pConfCall->htCall, TRUE ) == 0) { pCall->pConfParent = pConfCall; pConfCall->pNextConfChild = pCall; } // The consult call isn't in the conf initially // // Note - indecision on the validity of this transition // SDK allows it, internal TAPI documents by NoelA do not. // SetCallState( pConsultCall, dwConsultCallInstThen, 0xffffffff, // we created this call right now - no initial state reqs. LINECALLSTATE_DIALTONE, 0, TRUE ); } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } else { FreeCall (pConfCall, dwConfCallInstThen); FreeCall (pConsultCall, dwConsultCallInstThen); } } LONG TSPIAPI TSPI_lineSetupConference( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, HDRVLINE hdLine, HTAPICALL htConfCall, LPHDRVCALL lphdConfCall, HTAPICALL htConsultCall, LPHDRVCALL lphdConsultCall, DWORD dwNumParties, LPLINECALLPARAMS const lpCallParams ) { static char szFuncName[] = "lineSetupConference"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { szhdLine, hdLine }, { "htConfCall", htConfCall }, { "lphdConfCall", lphdConfCall }, { "htConsultCall", htConsultCall }, { "lphdConsultCall", lphdConsultCall }, { "dwNumParties", dwNumParties }, { szlpCallParams, lpCallParams } }; FUNC_INFO info = { szFuncName, ASYNC, 9, params, TSPI_lineSetupConference_postProcess }; if (Prolog (&info)) { LONG lResult; DWORD dwCallInstance; PDRVCALL pConfCall, pConsultCall; PDRVLINE pLine; //info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (hdCall && !IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { info.lResult = LINEERR_INVALCALLHANDLE; goto TSPI_lineSetupConference_leaveCritSec; } pLine = (hdCall ? (PDRVLINE) ((PDRVCALL) hdCall)->pLine : (PDRVLINE) hdLine); if ((lResult = AllocCall( pLine, htConfCall, lpCallParams, &pConfCall )) == 0) { if (hdCall) { pConfCall->dwCallID = ((PDRVCALL) hdCall)->dwCallID; } if ((lResult = AllocCall( pLine, htConsultCall, lpCallParams, &pConsultCall )) == 0) { info.pAsyncReqInfo->dwParam1 = dwCallInstance; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) pConfCall; info.pAsyncReqInfo->dwParam4 = pConfCall->dwCallInstance; info.pAsyncReqInfo->dwParam5 = (ULONG_PTR) pConsultCall; info.pAsyncReqInfo->dwParam6 = pConsultCall->dwCallInstance; *lphdConfCall = (HDRVCALL) pConfCall; *lphdConsultCall = (HDRVCALL) pConsultCall; } else { FreeCall (pConfCall, pConfCall->dwCallInstance); info.lResult = lResult; } } else { info.lResult = lResult; } TSPI_lineSetupConference_leaveCritSec: LeaveCriticalSection (&gESPGlobals.CallListCritSec); } return (Epilog (&info)); } void FAR PASCAL TSPI_lineSetupTransfer_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam1, dwConsultCallInstThen = (DWORD) pAsyncReqInfo->dwParam4; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam2, pConsultCall = (PDRVCALL) pAsyncReqInfo->dwParam3; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { if (SetCallState( pConsultCall, dwConsultCallInstThen, 0xffffffff, // we created this call right now - no initial state reqs. LINECALLSTATE_DIALTONE, 0, TRUE ) == 0) { SetCallState( pCall, dwCallInstThen, LINECALLSTATE_CONNECTED, LINECALLSTATE_ONHOLDPENDTRANSFER, 0, TRUE ); } } else { FreeCall (pConsultCall, dwConsultCallInstThen); } } LONG TSPIAPI TSPI_lineSetupTransfer( DRV_REQUESTID dwRequestID, HDRVCALL hdCall, HTAPICALL htConsultCall, LPHDRVCALL lphdConsultCall, LPLINECALLPARAMS const lpCallParams ) { static char szFuncName[] = "lineSetupTransfer"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, { "htConsultCall", htConsultCall }, { "lphdConsultCall", lphdConsultCall }, { szlpCallParams, lpCallParams } }; FUNC_INFO info = { szFuncName, ASYNC, 5, params, TSPI_lineSetupTransfer_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { LONG lResult; PDRVCALL pConsultCall; if ((lResult = AllocCall( ((PDRVCALL) hdCall)->pLine, htConsultCall, lpCallParams, &pConsultCall )) == 0) { *lphdConsultCall = (HDRVCALL) pConsultCall; info.pAsyncReqInfo->dwParam1 = dwCallInstance; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) hdCall; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) pConsultCall; info.pAsyncReqInfo->dwParam4 = pConsultCall->dwCallInstance; } else { info.lResult = lResult; } } else { info.lResult = LINEERR_INVALCALLHANDLE; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } return (Epilog (&info)); } void FAR PASCAL TSPI_lineSwapHold_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwActiveCallInstThen = (DWORD) pAsyncReqInfo->dwParam1, dwHeldCallInstThen = (DWORD) pAsyncReqInfo->dwParam2, dwActiveCallInstNow, dwHeldCallInstNow; PDRVCALL pActiveCall = (PDRVCALL) pAsyncReqInfo->dwParam3, pHeldCall = (PDRVCALL) pAsyncReqInfo->dwParam4; if ((pAsyncReqInfo->lResult == 0)) { // // Note - indecision on the final state of the ActiveCall after lineSwapHold() // SDK says ONHOLD, internal TAPI documents by NoelA allow several other. // if (SetCallState( pActiveCall, dwActiveCallInstThen, LINECALLSTATE_CONNECTED, LINECALLSTATE_ONHOLD, 0, TRUE ) == 0) { // // Note - indecision on the validity of ONHOLD->CONNECTED transition // SDK allows it, internal TAPI documents by NoelA do not. // SetCallState( pHeldCall, dwHeldCallInstThen, LINECALLSTATE_ONHOLD | LINECALLSTATE_ONHOLDPENDTRANSFER | LINECALLSTATE_ONHOLDPENDCONF, LINECALLSTATE_CONNECTED, 0, TRUE ); } } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineSwapHold( DRV_REQUESTID dwRequestID, HDRVCALL hdActiveCall, HDRVCALL hdHeldCall ) { static char szFuncName[] = "lineSwapHold"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { "hdActiveCall", hdActiveCall }, { "hdHeldCall", hdHeldCall } }; FUNC_INFO info = { szFuncName, ASYNC, 3, params, TSPI_lineSwapHold_postProcess }; if (Prolog (&info)) { DWORD dwActiveCallInstance, dwHeldCallInstance; if (IsValidDrvCall( (PDRVCALL) hdActiveCall, &dwActiveCallInstance ) && IsValidDrvCall( (PDRVCALL) hdHeldCall, &dwHeldCallInstance )) { info.pAsyncReqInfo->dwParam1 = dwActiveCallInstance; info.pAsyncReqInfo->dwParam2 = dwHeldCallInstance; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) hdActiveCall; info.pAsyncReqInfo->dwParam4 = (ULONG_PTR) hdHeldCall; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_lineUncompleteCall( DRV_REQUESTID dwRequestID, HDRVLINE hdLine, DWORD dwCompletionID ) { static char szFuncName[] = "lineUncompleteCall"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdLine, hdLine }, { "dwCompletionID", dwCompletionID } }; FUNC_INFO info = { szFuncName, ASYNC, 3, params, NULL }; if (Prolog (&info)) { if (dwCompletionID == 0xffffffff) { info.lResult = LINEERR_INVALCOMPLETIONID; } } return (Epilog (&info)); } void FAR PASCAL TSPI_lineUnhold_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { if (pAsyncReqInfo->lResult == 0) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam1; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam2; pAsyncReqInfo->lResult = SetCallState( pCall, dwCallInstThen, LINECALLSTATE_ONHOLD, LINECALLSTATE_CONNECTED, 0, TRUE ); } DoCompletion (pAsyncReqInfo, bAsync); } LONG TSPIAPI TSPI_lineUnhold( DRV_REQUESTID dwRequestID, HDRVCALL hdCall ) { static char szFuncName[] = "lineUnhold"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdCall, hdCall }, }; FUNC_INFO info = { szFuncName, ASYNC, 2, params, TSPI_lineUnhold_postProcess }; if (Prolog (&info)) { DWORD dwCallInstance; if (IsValidDrvCall ((PDRVCALL) hdCall, &dwCallInstance)) { info.pAsyncReqInfo->dwParam1 = dwCallInstance; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) hdCall; } else { info.lResult = LINEERR_INVALCALLHANDLE; } } return (Epilog (&info)); } void FAR PASCAL TSPI_lineUnpark_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam2, dwParkIndex = (DWORD) pAsyncReqInfo->dwParam3, dwCallInstNow; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1; if (pAsyncReqInfo->lResult == 0) { // // Make sure there's still a call there to unpark // if (gaParkedCalls[dwParkIndex] == NULL) { pAsyncReqInfo->lResult = LINEERR_OPERATIONFAILED; } } DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (gaParkedCalls[dwParkIndex] != NULL && IsValidDrvCall (pCall, &dwCallInstNow) && dwCallInstNow == dwCallInstThen) { // // Copy all the data from the parked call to the new call, // then free the parked call // PDRVCALL pParkedCall = gaParkedCalls[dwParkIndex]; gaParkedCalls[dwParkIndex] = NULL; CopyMemory( &pCall->dwMediaMode, &pParkedCall->dwMediaMode, 14 * sizeof (DWORD) + sizeof (LINEDIALPARAMS) ); if ((pCall->pDestCall = pParkedCall->pDestCall)) { pCall->pDestCall->pDestCall = pCall; pCall->bConnectedToDestCall = pParkedCall->bConnectedToDestCall; } CopyMemory( &pCall->dwGatherDigitsEndToEndID, &pParkedCall->dwGatherDigitsEndToEndID, 5 * sizeof (DWORD) ); pCall->dwCallID = pParkedCall->dwCallID; // // Reset call state to 0 so SetCallState will do the indication // { DWORD dwCallState = pCall->dwCallState; pCall->dwCallState = 0; SetCallState( pCall, dwCallInstThen, 0xffffffff, // no reqs. we set the current state to 0 just above! dwCallState, 0, TRUE ); } SendLineEvent( pCall->pLine, pCall, LINE_CALLINFO, LINECALLINFOSTATE_CALLID, 0, 0 ); pParkedCall->dwKey = INVAL_KEY; DrvFree (pParkedCall); } else { SetCallState( pCall, dwCallInstThen, 0xffffffff, // all states are valid LINECALLSTATE_IDLE, 0, TRUE ); } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } else { FreeCall (pCall, dwCallInstThen); } } LONG TSPIAPI TSPI_lineUnpark( DRV_REQUESTID dwRequestID, HDRVLINE hdLine, DWORD dwAddressID, HTAPICALL htCall, LPHDRVCALL lphdCall, LPCWSTR lpszDestAddress ) { static char szFuncName[] = "lineUnpark"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdLine, hdLine }, { "dwAddressID", dwAddressID }, { "htCall", htCall }, { "lphdCall", lphdCall }, { "lpszDestAddress", lpszDestAddress } }; FUNC_INFO info = { szFuncName, ASYNC, 6, params, NULL }; if (Prolog (&info)) { // // See if the park addr is valid, & if there's actually a // call parked there now // char *pszDestAddress, *p, c; DWORD length, dwParkIndex; // // Convert dest addr from unicode to ascii // length = (lstrlenW (lpszDestAddress) + 1) * sizeof (WCHAR); if (!(pszDestAddress = DrvAlloc (length))) { info.lResult = LINEERR_NOMEM; return (Epilog (&info)); } WideCharToMultiByte( CP_ACP, 0, lpszDestAddress, -1, pszDestAddress, length, NULL, NULL ); p = pszDestAddress; // // See if destination address is in the format of "9999#" // if (*p++ != '9' || *p++ != '9' || *p++ != '9' || *p++ != '9' || *p++ != '#' || *p < '0' || *p > '9') { info.lResult = LINEERR_INVALADDRESS; goto TSPI_lineUnpark_freeDestAddress; } for (dwParkIndex = 0; (c = *p); p++) { if (c >= '0' && c <= '9') { dwParkIndex *= 10; dwParkIndex += ((DWORD)(c - '0')); } else { break; } } if (c != '\0' || dwParkIndex >= MAX_NUM_PARKED_CALLS) { info.lResult = LINEERR_INVALADDRESS; goto TSPI_lineUnpark_freeDestAddress; } if (gaParkedCalls[dwParkIndex] != NULL) { PDRVCALL pCall; LINECALLPARAMS callParams; ZeroMemory (&callParams, sizeof (LINECALLPARAMS)); callParams.dwTotalSize = sizeof (LINECALLPARAMS); callParams.dwAddressID = dwAddressID; callParams.dwAddressMode = LINEADDRESSMODE_ADDRESSID; if ((info.lResult = AllocCall( (PDRVLINE) hdLine, htCall, &callParams, &pCall )) == 0) { pCall->dwCallID = gaParkedCalls[dwParkIndex]->dwCallID; pCall->dwRelatedCallID = gaParkedCalls[dwParkIndex]->dwRelatedCallID; pCall->dwAddressType = gaParkedCalls[dwParkIndex]->dwAddressType; info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) pCall; info.pAsyncReqInfo->dwParam2 = pCall->dwCallInstance; info.pAsyncReqInfo->dwParam3 = dwParkIndex; *lphdCall = (HDRVCALL) pCall; info.pAsyncReqInfo->pfnPostProcessProc = (FARPROC) TSPI_lineUnpark_postProcess; } } else { info.lResult = LINEERR_OPERATIONFAILED; } TSPI_lineUnpark_freeDestAddress: DrvFree (pszDestAddress); } return (Epilog (&info)); } // // -------------------------- TSPI_phoneXxx funcs ----------------------------- // LONG TSPIAPI TSPI_phoneClose( HDRVPHONE hdPhone ) { static char szFuncName[] = "phoneClose"; FUNC_PARAM params[] = { { szhdPhone, hdPhone } }; FUNC_INFO info = { szFuncName, SYNC, 1, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; // // This is more of a "command" than a request, in that TAPI.DLL is // going to consider the phone closed whether we like it or not. // Therefore we want to free up the phone even if the user chooses // to return an error. // Prolog (&info); pPhone->htPhone = (HTAPIPHONE) NULL; WriteEventBuffer (pPhone->dwDeviceID, WIDGETTYPE_PHONE, 0, 0, 0, 0); return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneDevSpecific( DRV_REQUESTID dwRequestID, HDRVPHONE hdPhone, LPVOID lpParams, DWORD dwSize ) { static char szFuncName[] = "phoneDevSpecific"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdPhone, hdPhone }, { "lpParams", lpParams }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params }; if (Prolog (&info)) { PESPDEVSPECIFICINFO pInfo = (PESPDEVSPECIFICINFO) lpParams; if (dwSize >= sizeof (ESPDEVSPECIFICINFO) && pInfo->dwKey == ESPDEVSPECIFIC_KEY) { switch (pInfo->dwType) { case ESP_DEVSPEC_MSG: switch (pInfo->u.EspMsg.dwMsg) { case PHONE_BUTTON: case PHONE_CLOSE: case PHONE_DEVSPECIFIC: case PHONE_STATE: SendPhoneEvent( (PDRVPHONE) hdPhone, pInfo->u.EspMsg.dwMsg, pInfo->u.EspMsg.dwParam1, pInfo->u.EspMsg.dwParam2, pInfo->u.EspMsg.dwParam3 ); break; case PHONE_CREATE: if (gESPGlobals.pPhones->dwNumUsedEntries < gESPGlobals.pPhones->dwNumTotalEntries) { (*gESPGlobals.pfnPhoneEvent)( (HTAPIPHONE) NULL, PHONE_CREATE, (ULONG_PTR) gESPGlobals.hProvider, gESPGlobals.pPhones->dwNumUsedEntries++, 0 ); } else { ShowStr( TRUE, "ERROR: TSPI_phoneDevSpecific: attempt " \ "to send PHONE_CREATE - can't create " \ "any more devices on the fly" ); info.lResult = PHONEERR_OPERATIONFAILED; } break; default: ShowStr( TRUE, "ERROR: TSPI_phoneDevSpecific: unrecognized " \ "ESPDEVSPECIFICINFO.u.EspMsg.dwMsg (=x%x)", pInfo->u.EspMsg.dwMsg ); info.lResult = PHONEERR_OPERATIONFAILED; break; } break; case ESP_DEVSPEC_RESULT: { DWORD dwResult = pInfo->u.EspResult.lResult; if (dwResult != 0 && (dwResult < LINEERR_ALLOCATED || dwResult > PHONEERR_REINIT || (dwResult > LINEERR_DIALVOICEDETECT && dwResult < PHONEERR_ALLOCATED))) { ShowStr( TRUE, "ERROR: TSPI_phoneDevSpecific: invalid request" \ "result value (x%x)", dwResult ); info.lResult = PHONEERR_OPERATIONFAILED; } else if (pInfo->u.EspResult.dwCompletionType > ESP_RESULT_CALLCOMPLPROCASYNC) { ShowStr( TRUE, "ERROR: TSPI_phoneDevSpecific: invalid request" \ "completion type (x%x)", pInfo->u.EspResult.dwCompletionType ); info.lResult = PHONEERR_OPERATIONFAILED; } else { glNextRequestResult = (LONG) dwResult; gdwNextRequestCompletionType = pInfo->u.EspResult.dwCompletionType; gdwDevSpecificRequestID = dwRequestID; } break; } default: ShowStr( TRUE, "ERROR: TSPI_phoneDevSpecific: unrecognized " \ "ESPDEVSPECIFICINFO.dwType (=x%x)", pInfo->dwType ); info.lResult = PHONEERR_OPERATIONFAILED; break; } } else { info.pAsyncReqInfo->dwParam1 = lpParams; info.pAsyncReqInfo->dwParam2 = dwSize; info.pAsyncReqInfo->pfnPostProcessProc = (FARPROC) TSPI_lineDevSpecific_postProcess; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetButtonInfo( HDRVPHONE hdPhone, DWORD dwButtonLampID, LPPHONEBUTTONINFO lpButtonInfo ) { static char szFuncName[] = "phoneGetButtonInfo"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "dwButtonLampID", dwButtonLampID }, { "lpButtonInfo", lpButtonInfo } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; if (Prolog (&info)) { if (dwButtonLampID == 0) { if (pPhone->pButtonInfo) { if (pPhone->pButtonInfo->dwUsedSize <= lpButtonInfo->dwTotalSize) { CopyMemory( (LPBYTE) &lpButtonInfo->dwNeededSize, (LPBYTE) &pPhone->pButtonInfo->dwNeededSize, pPhone->pButtonInfo->dwUsedSize - sizeof (DWORD) ); } else { lpButtonInfo->dwNeededSize = pPhone->pButtonInfo->dwUsedSize; } } } else { info.lResult = PHONEERR_INVALBUTTONLAMPID; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetData( HDRVPHONE hdPhone, DWORD dwDataID, LPVOID lpData, DWORD dwSize ) { static char szFuncName[] = "phoneGetData"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "dwDataID", dwDataID }, { "lpData", lpData }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; if (Prolog (&info)) { if (dwDataID != 0) { info.lResult = PHONEERR_INVALDATAID; } else if (pPhone->pData) { CopyMemory( lpData, pPhone->pData, (dwSize > pPhone->dwDataSize ? pPhone->dwDataSize : dwSize) ); } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetDevCaps( DWORD dwDeviceID, DWORD dwTSPIVersion, DWORD dwExtVersion, LPPHONECAPS lpPhoneCaps ) { static char szFuncName[] = "phoneGetDevCaps"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "dwTSPIVersion", dwTSPIVersion }, { "dwExtVersion", dwExtVersion }, { "lpPhoneCaps", lpPhoneCaps } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; char buf[32]; WCHAR wbuf[32]; DWORD dwDummy; PDRVPHONE pPhone = GetPhoneFromID (dwDeviceID); if (Prolog (&info)) { //lpPhoneCaps->dwNeededSize //lpPhoneCaps->dwUsedSize InsertVarDataString( lpPhoneCaps, &lpPhoneCaps->dwProviderInfoSize, gszProviderInfo ); //lpPhoneCaps->dwPhoneInfoSize //lpPhoneCaps->dwPhoneInfoOffset lpPhoneCaps->dwPermanentPhoneID = (gESPGlobals.dwPermanentProviderID << 16) | (dwDeviceID - gESPGlobals.dwPhoneDeviceIDBase); // NOTE: win9x doesn't support wsprintfW wsprintfA (buf, "ESP Phone %d", dwDeviceID); MultiByteToWideChar( GetACP(), MB_PRECOMPOSED, buf, lstrlen (buf) + 1, wbuf, 20 ); InsertVarDataString( lpPhoneCaps, &lpPhoneCaps->dwPhoneNameSize, wbuf ); lpPhoneCaps->dwStringFormat = STRINGFORMAT_ASCII; //lpPhoneCaps->dwPhoneStates lpPhoneCaps->dwHookSwitchDevs = AllHookSwitchDevs; lpPhoneCaps->dwHandsetHookSwitchModes = lpPhoneCaps->dwSpeakerHookSwitchModes = lpPhoneCaps->dwHeadsetHookSwitchModes = AllHookSwitchModes; lpPhoneCaps->dwVolumeFlags = AllHookSwitchDevs; lpPhoneCaps->dwGainFlags = AllHookSwitchDevs; lpPhoneCaps->dwDisplayNumRows = 1; lpPhoneCaps->dwDisplayNumColumns = PHONE_DISPLAY_SIZE_IN_CHARS; lpPhoneCaps->dwNumRingModes = 0xffffffff; lpPhoneCaps->dwNumButtonLamps = 1; dwDummy = PHONEBUTTONMODE_FEATURE; InsertVarData( lpPhoneCaps, &lpPhoneCaps->dwButtonModesSize, (LPVOID) &dwDummy, sizeof (DWORD) ); dwDummy = PHONEBUTTONFUNCTION_UNKNOWN; InsertVarData( lpPhoneCaps, &lpPhoneCaps->dwButtonFunctionsSize, (LPVOID) &dwDummy, sizeof (DWORD) ); dwDummy = PHONELAMPMODE_OFF; InsertVarData( lpPhoneCaps, &lpPhoneCaps->dwLampModesSize, (LPVOID) &dwDummy, sizeof (DWORD) ); lpPhoneCaps->dwNumSetData = 1; dwDummy = MAX_VAR_DATA_SIZE; InsertVarData( lpPhoneCaps, &lpPhoneCaps->dwSetDataSize, (LPVOID) &dwDummy, sizeof (DWORD) ); lpPhoneCaps->dwNumGetData = 1; InsertVarData( lpPhoneCaps, &lpPhoneCaps->dwGetDataSize, (LPVOID) &dwDummy, sizeof (DWORD) ); //lpPhoneCaps->dwDevSpecificSize //lpPhoneCaps->dwDevSpecificOffset if (gESPGlobals.dwSPIVersion >= 0x00020000) { //lpPhoneCaps->dwDeviceClassesSize //lpPhoneCaps->dwDeviceClassesOffset lpPhoneCaps->dwPhoneFeatures = AllPhoneFeatures; lpPhoneCaps->dwSettableHandsetHookSwitchModes = lpPhoneCaps->dwSettableSpeakerHookSwitchModes = lpPhoneCaps->dwSettableHeadsetHookSwitchModes = AllHookSwitchModes; //lpPhoneCaps->dwMonitoredHandsetHookSwitchModes //lpPhoneCaps->dwMonitoredSpeakerHookSwitchModes //lpPhoneCaps->dwMonitoredHeadsetHookSwitchModes if (gESPGlobals.dwSPIVersion >= 0x00020002) { lpPhoneCaps->PermanentPhoneGuid.Data1 = (long) (dwDeviceID - gESPGlobals.dwPhoneDeviceIDBase); *((LPDWORD) &lpPhoneCaps->PermanentPhoneGuid.Data2) = *((LPDWORD) &lpPhoneCaps->PermanentPhoneGuid.Data4[0]) = *((LPDWORD) &lpPhoneCaps->PermanentPhoneGuid.Data4[4]) = DRVPHONE_KEY; } } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetDisplay( HDRVPHONE hdPhone, LPVARSTRING lpDisplay ) { static char szFuncName[] = "phoneGetDisplay"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "lpDisplay", lpDisplay } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; if (Prolog (&info)) { static DWORD dwNeededSize = sizeof(VARSTRING) + PHONE_DISPLAY_SIZE_IN_BYTES; if (lpDisplay->dwTotalSize >= dwNeededSize) { if (pPhone->pDisplay) { CopyMemory( lpDisplay + 1, pPhone->pDisplay, PHONE_DISPLAY_SIZE_IN_BYTES ); } else { ZeroMemory (lpDisplay + 1, PHONE_DISPLAY_SIZE_IN_BYTES); } lpDisplay->dwUsedSize = dwNeededSize; lpDisplay->dwStringFormat = STRINGFORMAT_ASCII; lpDisplay->dwStringSize = PHONE_DISPLAY_SIZE_IN_BYTES; lpDisplay->dwStringOffset = sizeof (VARSTRING); } lpDisplay->dwNeededSize = dwNeededSize; } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetExtensionID( DWORD dwDeviceID, DWORD dwTSPIVersion, LPPHONEEXTENSIONID lpExtensionID ) { static char szFuncName[] = "phoneGetExtensionID"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "dwTSPIVersion", dwTSPIVersion }, { "lpExtensionID", lpExtensionID } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; if (Prolog (&info)) { // BUGBUG TSPI_phoneGetExtensionID: } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetGain( HDRVPHONE hdPhone, DWORD dwHookSwitchDev, LPDWORD lpdwGain ) { static char szFuncName[] = "phoneGetGain"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "dwHookSwitchDev", dwHookSwitchDev }, { "lpdwGain", lpdwGain } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; if (Prolog (&info)) { switch (dwHookSwitchDev) { case PHONEHOOKSWITCHDEV_HANDSET: *lpdwGain = pPhone->dwHandsetGain; break; case PHONEHOOKSWITCHDEV_SPEAKER: *lpdwGain = pPhone->dwSpeakerGain; break; case PHONEHOOKSWITCHDEV_HEADSET: *lpdwGain = pPhone->dwHeadsetGain; break; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetHookSwitch( HDRVPHONE hdPhone, LPDWORD lpdwHookSwitchDevs ) { static char szFuncName[] = "phoneGetHookSwitch"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "lpdwHookSwitchDevs", lpdwHookSwitchDevs } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; if (Prolog (&info)) { *lpdwHookSwitchDevs = 0; if (!(pPhone->dwHandsetHookSwitchMode & PHONEHOOKSWITCHMODE_ONHOOK)) { *lpdwHookSwitchDevs |= PHONEHOOKSWITCHDEV_HANDSET; } if (!(pPhone->dwSpeakerHookSwitchMode & PHONEHOOKSWITCHMODE_ONHOOK)) { *lpdwHookSwitchDevs |= PHONEHOOKSWITCHDEV_SPEAKER; } if (!(pPhone->dwHeadsetHookSwitchMode & PHONEHOOKSWITCHMODE_ONHOOK)) { *lpdwHookSwitchDevs |= PHONEHOOKSWITCHDEV_HEADSET; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetIcon( DWORD dwDeviceID, LPCWSTR lpszDeviceClass, LPHICON lphIcon ) { static char szFuncName[] = "phoneGetIcon"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "lpszDeviceClass", lpszDeviceClass }, { "lphIcon", lphIcon } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; if (Prolog (&info)) { if (lpszDeviceClass && My_lstrcmpiW( (WCHAR *) lpszDeviceClass, (WCHAR *) (L"tapi/InvalidDeviceClass") ) == 0) { info.lResult = PHONEERR_INVALDEVICECLASS; } else { *lphIcon = gESPGlobals.hIconPhone; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetID( HDRVPHONE hdPhone, LPVARSTRING lpDeviceID, LPCWSTR lpszDeviceClass, HANDLE hTargetProcess ) { static char szFuncName[] = "phoneGetID"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "lpDeviceID", lpDeviceID }, { "lpszDeviceClass", lpszDeviceClass } ,{ "hTargetProcess", hTargetProcess } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; DWORD i, j, dwDeviceID, dwNeededSize, dwNumDeviceIDs = 1; DWORD *lpdwDeviceIDs; if (!Prolog (&info)) { return (Epilog (&info)); } for (i = 0; aszDeviceClasses[i]; i++) { if (My_lstrcmpiW( (WCHAR *) lpszDeviceClass, (WCHAR *) aszDeviceClasses[i] ) == 0) { break; } } if (!aszDeviceClasses[i]) { info.lResult = PHONEERR_NODEVICE; return (Epilog (&info)); } if (i == 1) //tapi/phone { dwNumDeviceIDs = 1; dwNeededSize = sizeof(VARSTRING) + (dwNumDeviceIDs * sizeof(DWORD)); if (lpDeviceID->dwTotalSize < dwNeededSize) { lpDeviceID->dwNeededSize = dwNeededSize; lpDeviceID->dwUsedSize = 3 * sizeof(DWORD); return (Epilog (&info)); } if (! (lpdwDeviceIDs = DrvAlloc(dwNumDeviceIDs * sizeof(DWORD)) ) ) { info.lResult = PHONEERR_NOMEM; return (Epilog (&info)); } lpdwDeviceIDs[0] = pPhone->dwDeviceID; } else if (i == 0) //tapi/line { PDRVLINE pLine; // create a list of all the ESP deviceIDs dwNumDeviceIDs = gESPGlobals.pLines->dwNumUsedEntries; dwNeededSize = sizeof(VARSTRING) + (dwNumDeviceIDs * sizeof(DWORD)); if (lpDeviceID->dwTotalSize < dwNeededSize) { lpDeviceID->dwNeededSize = dwNeededSize; lpDeviceID->dwUsedSize = 3 * sizeof(DWORD); return (Epilog (&info)); } if (! (lpdwDeviceIDs = DrvAlloc(dwNumDeviceIDs * sizeof(DWORD)))) { info.lResult = PHONEERR_NOMEM; return (Epilog (&info)); } for (j = 0; j < gESPGlobals.dwInitialNumLines; j++) { lpdwDeviceIDs[j] = gESPGlobals.dwLineDeviceIDBase + j; } pLine = (PDRVLINE) (((LPBYTE) gESPGlobals.pLines->aLines) + (gESPGlobals.dwInitialNumLines * gdwDrvLineSize)); for( j = gESPGlobals.dwInitialNumLines; j < gESPGlobals.pLines->dwNumUsedEntries; j++ ) { lpdwDeviceIDs[j] = pLine->dwDeviceID; pLine = (PDRVLINE) (((LPBYTE) pLine) + gdwDrvLineSize); } } else { dwNumDeviceIDs = 1; dwNeededSize = sizeof(VARSTRING) + (dwNumDeviceIDs * sizeof(DWORD)); if (lpDeviceID->dwTotalSize < dwNeededSize) { lpDeviceID->dwNeededSize = dwNeededSize; lpDeviceID->dwUsedSize = 3 * sizeof(DWORD); return (Epilog (&info)); } if (! (lpdwDeviceIDs = DrvAlloc(dwNumDeviceIDs * sizeof(DWORD)))) { info.lResult = PHONEERR_NOMEM; return (Epilog (&info)); } lpdwDeviceIDs[0] = 0; // needs to be modified according to the previous two cases before uncommenting /* BUGBUG TSPI_phoneGetID: if (gbShowLineGetIDDlg) { char szDlgTitle[64]; EVENT_PARAM params[] = { { "dwDeviceID", PT_DWORD, gdwDefLineGetIDID, 0 } }; EVENT_PARAM_HEADER paramsHeader = { 1, szDlgTitle, 0, params }; HWND hwnd; if (strlen (lpszDeviceClass) > 20) { ((char far *)lpszDeviceClass)[19] = 0; } wsprintfA( szDlgTitle, "TSPI_phoneGetID: select ID for class '%s'", lpszDeviceClass ); hwnd = CreateDialogParam( ghInstance, (LPCSTR)MAKEINTRESOURCE(IDD_DIALOG3), (HWND) NULL, CallDlgProc, (LPARAM) ¶msHeader ); MsgLoopInTAPIClientContext (hwnd); dwDeviceID = params[0].dwValue; } else { dwDeviceID = 0; } */ } lpDeviceID->dwNeededSize = lpDeviceID->dwUsedSize = dwNeededSize; lpDeviceID->dwStringFormat = STRINGFORMAT_BINARY; lpDeviceID->dwStringSize = sizeof(DWORD) * dwNumDeviceIDs; lpDeviceID->dwStringOffset = sizeof(VARSTRING); for (j = 0; j < dwNumDeviceIDs; j++) { *( ((LPDWORD)(lpDeviceID + 1)) + j) = lpdwDeviceIDs[j]; } DrvFree(lpdwDeviceIDs); return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetLamp( HDRVPHONE hdPhone, DWORD dwButtonLampID, LPDWORD lpdwLampMode ) { static char szFuncName[] = "phoneGetLamp"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "dwButtonLampID", dwButtonLampID }, { "lpdwLampMode", lpdwLampMode } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; if (Prolog (&info)) { *lpdwLampMode = ((PDRVPHONE) hdPhone)->dwLampMode; } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetRing( HDRVPHONE hdPhone, LPDWORD lpdwRingMode, LPDWORD lpdwVolume ) { static char szFuncName[] = "phoneGetRing"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "lpdwRingMode", lpdwRingMode }, { "lpdwVolume", lpdwVolume } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; if (Prolog (&info)) { *lpdwRingMode = pPhone->dwRingMode; *lpdwVolume = pPhone->dwRingVolume; } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetStatus( HDRVPHONE hdPhone, LPPHONESTATUS lpPhoneStatus ) { static char szFuncName[] = "phoneGetStatus"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "lpPhoneStatus", lpPhoneStatus } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; if (Prolog (&info)) { //lpPhoneStatus->dwStatusFlags; lpPhoneStatus->dwRingMode = pPhone->dwRingMode; lpPhoneStatus->dwRingVolume = pPhone->dwRingVolume; lpPhoneStatus->dwHandsetHookSwitchMode = pPhone->dwHandsetHookSwitchMode; lpPhoneStatus->dwHandsetVolume = pPhone->dwHandsetVolume; lpPhoneStatus->dwHandsetGain = pPhone->dwHandsetGain; lpPhoneStatus->dwSpeakerHookSwitchMode = pPhone->dwSpeakerHookSwitchMode; lpPhoneStatus->dwSpeakerVolume = pPhone->dwSpeakerVolume; lpPhoneStatus->dwSpeakerGain = pPhone->dwSpeakerGain; lpPhoneStatus->dwHeadsetHookSwitchMode = pPhone->dwHeadsetHookSwitchMode; lpPhoneStatus->dwHeadsetVolume = pPhone->dwHeadsetVolume; lpPhoneStatus->dwHeadsetGain = pPhone->dwHeadsetGain; // BUGBUG TSPI_phoneGetStatus: copy 0's to display buf if !pDisplay InsertVarData( lpPhoneStatus, &lpPhoneStatus->dwDisplaySize, (LPVOID) pPhone->pDisplay, (pPhone->pDisplay ? PHONE_DISPLAY_SIZE_IN_BYTES : 0) ); InsertVarData( lpPhoneStatus, &lpPhoneStatus->dwLampModesSize, (LPVOID) &pPhone->dwLampMode, sizeof (DWORD) ); //lpPhoneStatus->dwDevSpecificSize; //lpPhoneStatus->dwDevSpecificOffset; if (gESPGlobals.dwSPIVersion >= 0x00020000) { //lpPhoneStatus-> } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneGetVolume( HDRVPHONE hdPhone, DWORD dwHookSwitchDev, LPDWORD lpdwVolume ) { static char szFuncName[] = "phoneGetVolume"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "dwHookSwitchDev", dwHookSwitchDev, aHookSwitchDevs }, { "lpdwVolume", lpdwVolume } }; FUNC_INFO info = { szFuncName, SYNC, 3, params }; PDRVPHONE pPhone = (PDRVPHONE) hdPhone; if (Prolog (&info)) { switch (dwHookSwitchDev) { case PHONEHOOKSWITCHDEV_HANDSET: *lpdwVolume = pPhone->dwHandsetVolume; break; case PHONEHOOKSWITCHDEV_SPEAKER: *lpdwVolume = pPhone->dwSpeakerVolume; break; case PHONEHOOKSWITCHDEV_HEADSET: *lpdwVolume = pPhone->dwHeadsetVolume; break; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneNegotiateExtVersion( DWORD dwDeviceID, DWORD dwTSPIVersion, DWORD dwLowVersion, DWORD dwHighVersion, LPDWORD lpdwExtVersion ) { static char szFuncName[] = "phoneNegotiateExtVersion"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "dwTSPIVersion", dwTSPIVersion }, { "dwLowVersion", dwLowVersion }, { "dwHighVersion", dwHighVersion }, { "lpdwExtVersion", lpdwExtVersion } }; FUNC_INFO info = { szFuncName, SYNC, 5, params }; if (Prolog (&info)) { if (dwLowVersion == 0 || dwHighVersion == 0xffffffff || dwLowVersion > dwHighVersion) { info.lResult = PHONEERR_INCOMPATIBLEEXTVERSION; } else { *lpdwExtVersion = dwHighVersion; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneNegotiateTSPIVersion( DWORD dwDeviceID, DWORD dwLowVersion, DWORD dwHighVersion, LPDWORD lpdwTSPIVersion ) { static char szFuncName[] = "phoneNegotiateTSPIVersion"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "dwLowVersion", dwLowVersion }, { "dwHighVersion", dwHighVersion }, { "lpdwTSPIVersion", lpdwTSPIVersion } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; if (Prolog (&info)) { *lpdwTSPIVersion = gESPGlobals.dwSPIVersion; } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneOpen( DWORD dwDeviceID, HTAPIPHONE htPhone, LPHDRVPHONE lphdPhone, DWORD dwTSPIVersion, PHONEEVENT lpfnEventProc ) { static char szFuncName[] = "phoneOpen"; FUNC_PARAM params[] = { { szdwDeviceID, dwDeviceID }, { "htPhone", htPhone }, { "lphdPhone", lphdPhone }, { "dwTSPIVersion", dwTSPIVersion }, { "lpfnEventProc", lpfnEventProc } }; FUNC_INFO info = { szFuncName, SYNC, 5, params }; if (Prolog (&info)) { PDRVPHONE pPhone; if (pPhone = GetPhoneFromID (dwDeviceID)) { pPhone->htPhone = htPhone; *lphdPhone = (HDRVPHONE) pPhone; WriteEventBuffer( pPhone->dwDeviceID, WIDGETTYPE_PHONE, (ULONG_PTR) pPhone, (ULONG_PTR) htPhone, 0, 0 ); } else { info.lResult = PHONEERR_BADDEVICEID; } } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneSelectExtVersion( HDRVPHONE hdPhone, DWORD dwExtVersion ) { static char szFuncName[] = "phoneSelectExtVersion"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "dwExtVersion", dwExtVersion } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; if (Prolog (&info)) { } return (Epilog (&info)); } void FAR PASCAL TSPI_phoneSetButtonInfo_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { PDRVPHONE pPhone = (PDRVPHONE) pAsyncReqInfo->dwParam1; LPPHONEBUTTONINFO pButtonInfo = (LPPHONEBUTTONINFO) pAsyncReqInfo->dwParam2, pToFree; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.PhoneCritSec); pToFree = pPhone->pButtonInfo; pPhone->pButtonInfo = pButtonInfo; LeaveCriticalSection (&gESPGlobals.PhoneCritSec); DrvFree (pToFree); // no msg to send for this one? } else { DrvFree (pButtonInfo); } } LONG TSPIAPI TSPI_phoneSetButtonInfo( DRV_REQUESTID dwRequestID, HDRVPHONE hdPhone, DWORD dwButtonLampID, LPPHONEBUTTONINFO const lpButtonInfo ) { static char szFuncName[] = "phoneSetButtonInfo"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdPhone, hdPhone }, { "dwButtonLampID", dwButtonLampID }, { "lpButtonInfo", lpButtonInfo } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_phoneSetButtonInfo_postProcess }; if (Prolog (&info)) { if (dwButtonLampID == 0) { DWORD dwNeededSize; LPPHONEBUTTONINFO pMyButtonInfo; info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdPhone; dwNeededSize = sizeof (PHONEBUTTONINFO) + lpButtonInfo->dwButtonTextSize + lpButtonInfo->dwDevSpecificSize + 16; // 64-bit align var fields if ((pMyButtonInfo = (LPPHONEBUTTONINFO) DrvAlloc (dwNeededSize))) { info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) pMyButtonInfo; CopyMemory( pMyButtonInfo, lpButtonInfo, (gESPGlobals.dwSPIVersion > 0x00010003 ? sizeof (PHONEBUTTONINFO) : 9 * sizeof (DWORD)) ); pMyButtonInfo->dwTotalSize = dwNeededSize; pMyButtonInfo->dwNeededSize = pMyButtonInfo->dwUsedSize = sizeof (PHONEBUTTONINFO); InsertVarData( pMyButtonInfo, &pMyButtonInfo->dwButtonTextSize, ((LPBYTE) lpButtonInfo) + lpButtonInfo->dwButtonTextOffset, lpButtonInfo->dwButtonTextSize ); InsertVarData( pMyButtonInfo, &pMyButtonInfo->dwDevSpecificSize, ((LPBYTE) lpButtonInfo) + lpButtonInfo->dwDevSpecificOffset, lpButtonInfo->dwDevSpecificSize ); } else { info.lResult = PHONEERR_NOMEM; } } else { info.lResult = PHONEERR_INVALBUTTONLAMPID; } } return (Epilog (&info)); } void FAR PASCAL TSPI_phoneSetData_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwNewDataSize = (DWORD) pAsyncReqInfo->dwParam3; LPVOID pNewData = (LPVOID) pAsyncReqInfo->dwParam2, pToFree; PDRVPHONE pPhone = (PDRVPHONE) pAsyncReqInfo->dwParam1; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.PhoneCritSec); pToFree = pPhone->pData; pPhone->pData = pNewData; pPhone->dwDataSize = dwNewDataSize; LeaveCriticalSection (&gESPGlobals.PhoneCritSec); DrvFree (pToFree); // no msg to send for this one? } else { DrvFree (pNewData); } } LONG TSPIAPI TSPI_phoneSetData( DRV_REQUESTID dwRequestID, HDRVPHONE hdPhone, DWORD dwDataID, LPVOID const lpData, DWORD dwSize ) { static char szFuncName[] = "phoneSetData"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdPhone, hdPhone }, { "dwDataID", dwDataID }, { "lpData", lpData }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 5, params, TSPI_phoneSetData_postProcess }; if (Prolog (&info)) { if (dwDataID != 0) { info.lResult = PHONEERR_INVALDATAID; } else { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdPhone; if (dwSize) { info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) DrvAlloc (dwSize); if (info.pAsyncReqInfo->dwParam2 == 0) { info.lResult = PHONEERR_NOMEM; return (Epilog (&info)); } CopyMemory( (LPVOID) info.pAsyncReqInfo->dwParam2, lpData, dwSize ); } else { info.pAsyncReqInfo->dwParam2 = 0; } info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) dwSize; } } return (Epilog (&info)); } void FAR PASCAL TSPI_phoneSetDisplay_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwColumn = (DWORD) pAsyncReqInfo->dwParam2, dwSize = (DWORD) pAsyncReqInfo->dwParam4; WCHAR *pDisplay = (LPVOID) pAsyncReqInfo->dwParam3; PDRVPHONE pPhone = (PDRVPHONE) pAsyncReqInfo->dwParam1; if (pAsyncReqInfo->lResult == 0) { EnterCriticalSection (&gESPGlobals.PhoneCritSec); if (pPhone->pDisplay || (pPhone->pDisplay = DrvAlloc (PHONE_DISPLAY_SIZE_IN_BYTES))) { CopyMemory( pPhone->pDisplay + dwColumn, pDisplay, dwSize ); SendPhoneEvent (pPhone, PHONE_STATE, PHONESTATE_DISPLAY, 0, 0); } else { pAsyncReqInfo->lResult = PHONEERR_NOMEM; } LeaveCriticalSection (&gESPGlobals.PhoneCritSec); } DoCompletion (pAsyncReqInfo, bAsync); DrvFree (pDisplay); } LONG TSPIAPI TSPI_phoneSetDisplay( DRV_REQUESTID dwRequestID, HDRVPHONE hdPhone, DWORD dwRow, DWORD dwColumn, LPCWSTR lpsDisplay, DWORD dwSize ) { static char szFuncName[] = "phoneSetDisplay"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdPhone, hdPhone }, { "dwRow", dwRow }, { "dwColumn", dwColumn }, { "lpsDisplay", lpsDisplay }, { szdwSize, dwSize } }; FUNC_INFO info = { szFuncName, ASYNC, 6, params, TSPI_phoneSetDisplay_postProcess }; if (Prolog (&info)) { if (dwRow == 0 && dwColumn < PHONE_DISPLAY_SIZE_IN_CHARS && dwSize <= PHONE_DISPLAY_SIZE_IN_BYTES && (dwColumn * sizeof (WCHAR) + dwSize - sizeof (WCHAR)) < PHONE_DISPLAY_SIZE_IN_BYTES) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdPhone; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) dwColumn; if (dwSize) { info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) DrvAlloc (dwSize); if (info.pAsyncReqInfo->dwParam3 == 0) { info.lResult = PHONEERR_NOMEM; return (Epilog (&info)); } CopyMemory( (LPVOID) info.pAsyncReqInfo->dwParam3, lpsDisplay, dwSize ); } else { info.pAsyncReqInfo->dwParam3 = 0; } info.pAsyncReqInfo->dwParam4 = (ULONG_PTR) dwSize; } else { info.lResult = PHONEERR_INVALPARAM; } } return (Epilog (&info)); } void FAR PASCAL TSPI_phoneSetGain_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { DWORD dwHookSwitchDev = (DWORD) pAsyncReqInfo->dwParam2, dwGain = (DWORD) pAsyncReqInfo->dwParam3, *pdwXxxGain, dwPhoneState; PDRVPHONE pPhone = (PDRVPHONE) pAsyncReqInfo->dwParam1; switch (dwHookSwitchDev) { case PHONEHOOKSWITCHDEV_HANDSET: pdwXxxGain = &pPhone->dwHandsetGain; dwPhoneState = PHONESTATE_HANDSETGAIN; break; case PHONEHOOKSWITCHDEV_SPEAKER: pdwXxxGain = &pPhone->dwSpeakerGain; dwPhoneState = PHONESTATE_SPEAKERGAIN; break; default: // case PHONEHOOKSWITCHDEV_HEADSET: pdwXxxGain = &pPhone->dwHeadsetGain; dwPhoneState = PHONESTATE_HEADSETGAIN; break; } if (*pdwXxxGain != dwGain) { *pdwXxxGain = dwGain; SendPhoneEvent (pPhone, PHONE_STATE, dwPhoneState, 0, 0); } } } LONG TSPIAPI TSPI_phoneSetGain( DRV_REQUESTID dwRequestID, HDRVPHONE hdPhone, DWORD dwHookSwitchDev, DWORD dwGain ) { static char szFuncName[] = "phoneSetGain"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdPhone, hdPhone }, { "dwHookSwitchDev", dwHookSwitchDev, aHookSwitchDevs }, { "dwGain", dwGain } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_phoneSetGain_postProcess }; if (Prolog (&info)) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdPhone; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) dwHookSwitchDev; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) dwGain; } return (Epilog (&info)); } void FAR PASCAL TSPI_phoneSetHookSwitch_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { DWORD dwHookSwitchDevs = (DWORD) pAsyncReqInfo->dwParam2, dwHookSwitchMode = (DWORD) pAsyncReqInfo->dwParam3, dwPhoneStates = 0; PDRVPHONE pPhone = (PDRVPHONE) pAsyncReqInfo->dwParam1; if (dwHookSwitchDevs & PHONEHOOKSWITCHDEV_HANDSET && pPhone->dwHandsetHookSwitchMode != dwHookSwitchMode) { pPhone->dwHandsetHookSwitchMode = dwHookSwitchMode; dwPhoneStates |= PHONESTATE_HANDSETHOOKSWITCH; } if (dwHookSwitchDevs & PHONEHOOKSWITCHDEV_SPEAKER && pPhone->dwSpeakerHookSwitchMode != dwHookSwitchMode) { pPhone->dwSpeakerHookSwitchMode = dwHookSwitchMode; dwPhoneStates |= PHONESTATE_SPEAKERHOOKSWITCH; } if (dwHookSwitchDevs & PHONEHOOKSWITCHDEV_HEADSET && pPhone->dwHeadsetHookSwitchMode != dwHookSwitchMode) { pPhone->dwHeadsetHookSwitchMode = dwHookSwitchMode; dwPhoneStates |= PHONESTATE_HEADSETHOOKSWITCH; } if (dwPhoneStates) { SendPhoneEvent( pPhone, PHONE_STATE, dwPhoneStates, dwHookSwitchMode, 0 ); } } } LONG TSPIAPI TSPI_phoneSetHookSwitch( DRV_REQUESTID dwRequestID, HDRVPHONE hdPhone, DWORD dwHookSwitchDevs, DWORD dwHookSwitchMode ) { static char szFuncName[] = "phoneSetHookSwitch"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdPhone, hdPhone }, { "dwHookSwitchDevs", dwHookSwitchDevs, aHookSwitchDevs }, { "dwHookSwitchMode", dwHookSwitchMode, aHookSwitchModes } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_phoneSetHookSwitch_postProcess }; if (Prolog (&info)) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdPhone; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) dwHookSwitchDevs; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) dwHookSwitchMode; } return (Epilog (&info)); } void FAR PASCAL TSPI_phoneSetLamp_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { DWORD dwLampMode = (DWORD) pAsyncReqInfo->dwParam2; PDRVPHONE pPhone = (PDRVPHONE) pAsyncReqInfo->dwParam1; if (pPhone->dwLampMode != dwLampMode) { pPhone->dwLampMode = dwLampMode; SendPhoneEvent (pPhone, PHONE_STATE, PHONESTATE_LAMP, 0, 0); } } } LONG TSPIAPI TSPI_phoneSetLamp( DRV_REQUESTID dwRequestID, HDRVPHONE hdPhone, DWORD dwButtonLampID, DWORD dwLampMode ) { static char szFuncName[] = "phoneSetLamp"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdPhone, hdPhone }, { "dwButtonLampID", dwButtonLampID }, { "dwLampMode", dwLampMode, aLampModes } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_phoneSetLamp_postProcess }; if (Prolog (&info)) { if (dwButtonLampID == 0) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdPhone; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) dwLampMode; } else { info.lResult = PHONEERR_INVALBUTTONLAMPID; } } return (Epilog (&info)); } void FAR PASCAL TSPI_phoneSetRing_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { DWORD dwRingMode = (DWORD) pAsyncReqInfo->dwParam2, dwRingVolume = (DWORD) pAsyncReqInfo->dwParam3, dwPhoneStates = 0; PDRVPHONE pPhone = (PDRVPHONE) pAsyncReqInfo->dwParam1; if (pPhone->dwRingMode != dwRingMode) { pPhone->dwRingMode = dwRingMode; dwPhoneStates |= PHONESTATE_RINGMODE; } if (pPhone->dwRingVolume != dwRingVolume) { pPhone->dwRingVolume = dwRingVolume; dwPhoneStates |= PHONESTATE_RINGVOLUME; } if (dwPhoneStates) { SendPhoneEvent( pPhone, PHONE_STATE, dwPhoneStates, (dwPhoneStates & PHONESTATE_RINGMODE) ? dwRingMode : 0, 0 ); } } } LONG TSPIAPI TSPI_phoneSetRing( DRV_REQUESTID dwRequestID, HDRVPHONE hdPhone, DWORD dwRingMode, DWORD dwVolume ) { static char szFuncName[] = "phoneSetRing"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdPhone, hdPhone }, { "dwRingMode", dwRingMode }, { "dwVolume", dwVolume } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_phoneSetRing_postProcess }; if (Prolog (&info)) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdPhone; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) dwRingMode; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) dwVolume; } return (Epilog (&info)); } LONG TSPIAPI TSPI_phoneSetStatusMessages( HDRVPHONE hdPhone, DWORD dwPhoneStates, DWORD dwButtonModes, DWORD dwButtonStates ) { static char szFuncName[] = "phoneSetStatusMessages"; FUNC_PARAM params[] = { { szhdPhone, hdPhone }, { "dwPhoneStates", dwPhoneStates, aPhoneStates }, { "dwButtonModes", dwButtonModes, aButtonModes }, { "dwButtonStates", dwButtonStates, aButtonStates } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; if (Prolog (&info)) { } return (Epilog (&info)); } void FAR PASCAL TSPI_phoneSetVolume_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { DWORD dwHookSwitchDev = (DWORD) pAsyncReqInfo->dwParam2, dwVolume = (DWORD) pAsyncReqInfo->dwParam3, *pdwXxxVolume, dwPhoneState; PDRVPHONE pPhone = (PDRVPHONE) pAsyncReqInfo->dwParam1; switch (dwHookSwitchDev) { case PHONEHOOKSWITCHDEV_HANDSET: pdwXxxVolume = &pPhone->dwHandsetVolume; dwPhoneState = PHONESTATE_HANDSETVOLUME; break; case PHONEHOOKSWITCHDEV_SPEAKER: pdwXxxVolume = &pPhone->dwSpeakerVolume; dwPhoneState = PHONESTATE_SPEAKERVOLUME; break; default: // case PHONEHOOKSWITCHDEV_HEADSET: pdwXxxVolume = &pPhone->dwHeadsetVolume; dwPhoneState = PHONESTATE_HEADSETVOLUME; break; } if (*pdwXxxVolume != dwVolume) { *pdwXxxVolume = dwVolume; SendPhoneEvent (pPhone, PHONE_STATE, dwPhoneState, 0, 0); } } } LONG TSPIAPI TSPI_phoneSetVolume( DRV_REQUESTID dwRequestID, HDRVPHONE hdPhone, DWORD dwHookSwitchDev, DWORD dwVolume ) { static char szFuncName[] = "phoneSetVolume"; FUNC_PARAM params[] = { { szdwRequestID, dwRequestID }, { szhdPhone, hdPhone }, { "dwHookSwitchDev", dwHookSwitchDev }, // BUGBUG lookup { "dwVolume", dwVolume } }; FUNC_INFO info = { szFuncName, ASYNC, 4, params, TSPI_phoneSetVolume_postProcess }; if (Prolog (&info)) { info.pAsyncReqInfo->dwParam1 = (ULONG_PTR) hdPhone; info.pAsyncReqInfo->dwParam2 = (ULONG_PTR) dwHookSwitchDev; info.pAsyncReqInfo->dwParam3 = (ULONG_PTR) dwVolume; } return (Epilog (&info)); } // // ------------------------- TSPI_providerXxx funcs --------------------------- // LONG TSPIAPI TSPI_providerConfig( HWND hwndOwner, DWORD dwPermanentProviderID ) { // // 32-bit TAPI never actually calls this function (the corresponding // TUISPI_ func has taken it's place), but the Telephony control // panel applet does look to see if this function is exported to // determine whether or not the provider is configurable // return 0; } LONG TSPIAPI TSPI_providerCreateLineDevice( ULONG_PTR dwTempID, DWORD dwDeviceID ) { static char szFuncName[] = "providerCreateLineDevice"; FUNC_PARAM params[] = { { "dwTempID", dwTempID }, { szdwDeviceID, dwDeviceID } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; if (Prolog (&info)) { PDRVLINE pLine = (PDRVLINE) (((LPBYTE) gESPGlobals.pLines->aLines) + (dwTempID * gdwDrvLineSize)); pLine->dwDeviceID = dwDeviceID; WriteEventBuffer (pLine->dwDeviceID, WIDGETTYPE_LINE, 0, 0, 0, 0); } return (Epilog (&info)); } LONG TSPIAPI TSPI_providerCreatePhoneDevice( ULONG_PTR dwTempID, DWORD dwDeviceID ) { static char szFuncName[] = "providerCreatePhoneDevice"; FUNC_PARAM params[] = { { "dwTempID", dwTempID }, { szdwDeviceID, dwDeviceID } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; if (Prolog (&info)) { PDRVPHONE pPhone = gESPGlobals.pPhones->aPhones + dwTempID; pPhone->dwDeviceID = dwDeviceID; WriteEventBuffer (pPhone->dwDeviceID, WIDGETTYPE_PHONE, 0, 0, 0, 0); } return (Epilog (&info)); } LONG TSPIAPI TSPI_providerEnumDevices( DWORD dwPermanentProviderID, LPDWORD lpdwNumLines, LPDWORD lpdwNumPhones, HPROVIDER hProvider, LINEEVENT lpfnLineCreateProc, PHONEEVENT lpfnPhoneCreateProc ) { static char szFuncName[] = "providerEnumDevices"; FUNC_PARAM params[] = { { szdwPermanentProviderID, dwPermanentProviderID }, { "lpdwNumLines", lpdwNumLines }, { "lpdwNumPhones", lpdwNumPhones }, { "hProvider", hProvider }, { "lpfnLineCreateProc", lpfnLineCreateProc }, { "lpfnPhoneCreateProc", lpfnPhoneCreateProc } }; FUNC_INFO info = { szFuncName, SYNC, 6, params }; if (Prolog (&info)) { *lpdwNumLines = gESPGlobals.dwNumLines; *lpdwNumPhones = gESPGlobals.dwNumPhones; gESPGlobals.pfnLineEvent = lpfnLineCreateProc; gESPGlobals.pfnPhoneEvent = lpfnPhoneCreateProc; gESPGlobals.hProvider = hProvider; } return (Epilog (&info)); } LONG TSPIAPI TSPI_providerFreeDialogInstance( HDRVDIALOGINSTANCE hdDlgInst ) { static char szFuncName[] = "providerFreeDialogInstance"; FUNC_PARAM params[] = { { "hdDlgInst", hdDlgInst } }; FUNC_INFO info = { szFuncName, SYNC, 1, params }; Prolog (&info); return (Epilog (&info)); } LONG TSPIAPI TSPI_providerGenericDialogData( ULONG_PTR dwObjectID, DWORD dwObjectType, LPVOID lpParams, DWORD dwSize ) { static char szFuncName[] = "providerGenericDialogData"; FUNC_PARAM params[] = { { "dwObjectID", dwObjectID }, { "dwObjectType", dwObjectType }, { "lpszParams", lpParams }, { "dwSize", dwSize } }; FUNC_INFO info = { szFuncName, SYNC, 4, params }; Prolog (&info); lstrcpyA (lpParams, "espDlgData"); return (Epilog (&info)); } LONG TSPIAPI TSPI_providerInit( DWORD dwTSPIVersion, DWORD dwPermanentProviderID, DWORD dwLineDeviceIDBase, DWORD dwPhoneDeviceIDBase, DWORD_PTR dwNumLines, DWORD_PTR dwNumPhones, ASYNC_COMPLETION lpfnCompletionProc, LPDWORD lpdwTSPIOptions ) { static char szFuncName[] = "providerInit"; FUNC_PARAM params[] = { { "dwTSPIVersion", dwTSPIVersion }, { szdwPermanentProviderID, dwPermanentProviderID }, { "dwLineDeviceIDBase", dwLineDeviceIDBase }, { "dwPhoneDeviceIDBase", dwPhoneDeviceIDBase }, { "dwNumLines", dwNumLines }, { "dwNumPhones", dwNumPhones }, { "lpfnCompletionProc", lpfnCompletionProc } }; FUNC_INFO info = { szFuncName, SYNC, 7, params }; DWORD i, dwNumTotalEntries; PDRVLINE pLine; PDRVPHONE pPhone; if (!Prolog (&info)) { return (Epilog (&info)); } // // // // BUGBUG zero out he approp gESPGlobals stuff gESPGlobals.bProviderShutdown = FALSE; ZeroMemory (gaParkedCalls, MAX_NUM_PARKED_CALLS * sizeof (PDRVCALL)); // // Alloc a queue for storing async requests for async completion, // and start a thread to service that queue // // if (gbDisableUI == FALSE) IF THIS IS UNCOMMENTED MUST MUNGE ERROR CLEANUP { gESPGlobals.dwNumTotalQueueEntries = DEF_NUM_ASYNC_REQUESTS_IN_QUEUE; if (!(gESPGlobals.pAsyncRequestQueue = DrvAlloc( gESPGlobals.dwNumTotalQueueEntries * sizeof (DWORD) ))) { goto TSPI_providerInit_error0; } gESPGlobals.pAsyncRequestQueueIn = gESPGlobals.pAsyncRequestQueueOut = gESPGlobals.pAsyncRequestQueue; if (!(gESPGlobals.hAsyncEventsPendingEvent = CreateEvent( (LPSECURITY_ATTRIBUTES) NULL, TRUE, // manual reset FALSE, // non-signaled NULL // unnamed ))) { goto TSPI_providerInit_error1; } if (!(gESPGlobals.hAsyncEventQueueServiceThread = CreateThread( (LPSECURITY_ATTRIBUTES) NULL, 0, // def stack size (LPTHREAD_START_ROUTINE) AsyncEventQueueServiceThread, NULL, // thread param 0, // creation flags &i // &dwThreadID ))) { goto TSPI_providerInit_error2; } } // // Init sundry globals // gESPGlobals.dwPermanentProviderID = dwPermanentProviderID; gESPGlobals.dwLineDeviceIDBase = dwLineDeviceIDBase; gESPGlobals.dwPhoneDeviceIDBase = dwPhoneDeviceIDBase; gESPGlobals.dwInitialNumLines = (DWORD)dwNumLines; gESPGlobals.dwInitialNumPhones = (DWORD)dwNumPhones; gESPGlobals.pfnCompletion = lpfnCompletionProc; gESPGlobals.hIconLine = LoadIcon( ghInstance, (LPCSTR)MAKEINTRESOURCE(PHONE_ICON) // the id's are reversed ); gESPGlobals.hIconPhone = LoadIcon( ghInstance, (LPCSTR)MAKEINTRESOURCE(LINE_ICON) ); // // Init the line lookup table & crit sec for accessing call lists // dwNumTotalEntries = (DWORD)dwNumLines + DEF_NUM_EXTRA_LOOKUP_ENTRIES; gdwDrvLineSize = sizeof (DRVLINE) + ((gESPGlobals.dwNumAddressesPerLine - 1) * sizeof (DRVADDRESS)); if (!(gESPGlobals.pLines = DrvAlloc( sizeof (DRVLINETABLE) + (dwNumTotalEntries * gdwDrvLineSize) ))) { goto TSPI_providerInit_error3; } gESPGlobals.pLines->dwNumTotalEntries = dwNumTotalEntries; gESPGlobals.pLines->dwNumUsedEntries = (DWORD)dwNumLines; for ( i = dwLineDeviceIDBase, pLine = gESPGlobals.pLines->aLines; i < (dwLineDeviceIDBase + dwNumTotalEntries); i++ ) { pLine->dwDeviceID = (i < (dwLineDeviceIDBase + dwNumLines) ? i : 0xffffffff); pLine = (PDRVLINE) (((LPBYTE) pLine) + gdwDrvLineSize); } // // Init the phone lookup table // dwNumTotalEntries = (DWORD)dwNumPhones + DEF_NUM_EXTRA_LOOKUP_ENTRIES; if (!(gESPGlobals.pPhones = DrvAlloc( sizeof (DRVPHONETABLE) + dwNumTotalEntries * sizeof(DRVPHONE) ))) { goto TSPI_providerInit_error4; } gESPGlobals.pPhones->dwNumTotalEntries = dwNumTotalEntries; gESPGlobals.pPhones->dwNumUsedEntries = (DWORD)dwNumPhones; for ( i = dwPhoneDeviceIDBase, pPhone = gESPGlobals.pPhones->aPhones; i < (dwPhoneDeviceIDBase + dwNumTotalEntries); i++, pPhone++ ) { pPhone->dwDeviceID = (i < (dwPhoneDeviceIDBase + dwNumPhones) ? i : 0xffffffff); } if (gbDisableUI == FALSE) { WriteEventBuffer( 0, WIDGETTYPE_STARTUP, dwNumLines, dwNumPhones, dwLineDeviceIDBase, dwPhoneDeviceIDBase ); } goto TSPI_providerInit_return; TSPI_providerInit_error4: DrvFree (gESPGlobals.pLines); TSPI_providerInit_error3: gESPGlobals.bProviderShutdown = TRUE; if (gESPGlobals.hAsyncEventQueueServiceThread) { // wait for the thread to terminate while (WaitForSingleObject( gESPGlobals.hAsyncEventQueueServiceThread, 0 ) != WAIT_OBJECT_0) { SetEvent (gESPGlobals.hAsyncEventsPendingEvent); Sleep (0); } CloseHandle (gESPGlobals.hAsyncEventQueueServiceThread); gESPGlobals.hAsyncEventQueueServiceThread = 0; } TSPI_providerInit_error2: CloseHandle (gESPGlobals.hAsyncEventsPendingEvent); gESPGlobals.hAsyncEventsPendingEvent = 0; TSPI_providerInit_error1: DrvFree (gESPGlobals.pAsyncRequestQueue); TSPI_providerInit_error0: info.lResult = LINEERR_NOMEM; TSPI_providerInit_return: return (Epilog (&info)); // BUGBUG TSPI_providerInit: return 0 by default } LONG TSPIAPI TSPI_providerInstall( HWND hwndOwner, DWORD dwPermanentProviderID ) { // // 32-bit TAPI never actually calls this function (the corresponding // TUISPI_ func has taken it's place), but the Telephony control // panel applet does look to see if this function is exported to // determine whether or not the provider is installable // return 0; } LONG TSPIAPI TSPI_providerRemove( HWND hwndOwner, DWORD dwPermanentProviderID ) { // // 32-bit TAPI never actually calls this function (the corresponding // TUISPI_ func has taken it's place), but the Telephony control // panel applet does look to see if this function is exported to // determine whether or not the provider is removeable // return 0; } LONG TSPIAPI TSPI_providerShutdown( DWORD dwTSPIVersion, DWORD dwPermanentProviderID ) { static char szFuncName[] = "providerShutdown"; FUNC_PARAM params[] = { { "dwTSPIVersion", dwTSPIVersion }, { szdwPermanentProviderID, dwPermanentProviderID } }; FUNC_INFO info = { szFuncName, SYNC, 2, params }; LONG lResult; DWORD i; Prolog (&info); DestroyIcon (gESPGlobals.hIconLine); DestroyIcon (gESPGlobals.hIconPhone); // // // // if (gbDisableUI == FALSE) // { gESPGlobals.bProviderShutdown = TRUE; if (gESPGlobals.hAsyncEventQueueServiceThread) { // wait for the thread to terminate while (WaitForSingleObject( gESPGlobals.hAsyncEventQueueServiceThread, 0 ) != WAIT_OBJECT_0) { SetEvent (gESPGlobals.hAsyncEventsPendingEvent); Sleep (0); } CloseHandle (gESPGlobals.hAsyncEventQueueServiceThread); gESPGlobals.hAsyncEventQueueServiceThread = 0; } CloseHandle (gESPGlobals.hAsyncEventsPendingEvent); gESPGlobals.hAsyncEventsPendingEvent = 0; DrvFree (gESPGlobals.pAsyncRequestQueue); // } // // Free the device tables & call list crit sec // { PDRVLINETABLE pTable = gESPGlobals.pLines; while (pTable) { PDRVLINETABLE pNextTable = pTable->pNext; DrvFree (pTable); pTable = pNextTable; } gESPGlobals.pLines = 0; } { PDRVPHONETABLE pTable = gESPGlobals.pPhones; while (pTable) { PDRVPHONE pPhone = pTable->aPhones; PDRVPHONETABLE pNextTable = pTable->pNext; for (i = 0; i < pTable->dwNumUsedEntries; i++, pPhone++) { if (pPhone->pData) { DrvFree (pPhone->pData); } if (pPhone->pButtonInfo) { DrvFree (pPhone->pButtonInfo); } if (pPhone->pDisplay) { DrvFree (pPhone->pDisplay); } } DrvFree (pTable); pTable = pNextTable; } gESPGlobals.pPhones = 0; } // // // if (ghPBXThread) { ESPStopPBXThread (0); } // // Clean up any parked calls // for (i = 0; i < MAX_NUM_PARKED_CALLS; i++) { if (gaParkedCalls[i]) { if (gaParkedCalls[i]->pSendingFlowspec) { DrvFree (gaParkedCalls[i]->pSendingFlowspec); } if (gaParkedCalls[i]->pReceivingFlowspec) { DrvFree (gaParkedCalls[i]->pReceivingFlowspec); } if (gaParkedCalls[i]->pCallData) { DrvFree (gaParkedCalls[i]->pCallData); } DrvFree (gaParkedCalls[i]); } } return (Epilog (&info)); } LONG TSPIAPI TSPI_providerUIIdentify( LPWSTR lpszUIDLLName ) { static char szFuncName[] = "providerUIIdentify"; FUNC_PARAM params[] = { { "pszUIDLLName", lpszUIDLLName } }; FUNC_INFO info = { szFuncName, SYNC, 1, params }; Prolog (&info); wcscpy (lpszUIDLLName, szESPUIDLL); return (Epilog (&info)); } #pragma warning (default:4047) // // ------------------------ Private support routines -------------------------- // BOOL PASCAL IsValidDrvCall( PDRVCALL pCall, LPDWORD pdwCallInstance ) { try { if (pdwCallInstance) { *pdwCallInstance = pCall->dwCallInstance; } if (pCall->dwKey != DRVCALL_KEY) { return FALSE; } } except (GetExceptionCode() == EXCEPTION_ACCESS_VIOLATION ? EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH) { return FALSE; } return TRUE; } VOID ShowStr( BOOL bAlertApp, char *format, ... ) { char buf[256]; DWORD dwTotalSize, dwMoveSize, dwMoveSizeWrapped = 0; va_list ap; if (gbDisableUI == TRUE) { return; } va_start(ap, format); dwTotalSize = wvsprintf (buf, format, ap); buf[dwTotalSize++] = '\r'; buf[dwTotalSize++] = '\n'; dwMoveSize = dwTotalSize; EnterCriticalSection (&gESPGlobals.DebugBufferCritSec); // // Check to see if there's enough room in the the buffer for the new // data, alloc more if not // if (dwMoveSize > (gESPGlobals.dwDebugBufferTotalSize - gESPGlobals.dwDebugBufferUsedSize)) { char *pNewDebugBuffer; DWORD dwMoveSize2, dwMoveSizeWrapped2; if (!(pNewDebugBuffer = DrvAlloc( 2 * gESPGlobals.dwDebugBufferTotalSize ))) { LeaveCriticalSection (&gESPGlobals.DebugBufferCritSec); return; } if (gESPGlobals.pDebugBufferIn > gESPGlobals.pDebugBufferOut) { dwMoveSize2 = (DWORD) (gESPGlobals.pDebugBufferIn - gESPGlobals.pDebugBufferOut); dwMoveSizeWrapped2 = 0; } else { dwMoveSize2 = (DWORD) ((gESPGlobals.pDebugBuffer + gESPGlobals.dwDebugBufferTotalSize) - gESPGlobals.pDebugBufferOut); dwMoveSizeWrapped2 = (DWORD) (gESPGlobals.pDebugBufferIn - gESPGlobals.pDebugBuffer); } CopyMemory( pNewDebugBuffer, gESPGlobals.pDebugBufferOut, dwMoveSize2 ); if (dwMoveSizeWrapped2) { CopyMemory( pNewDebugBuffer + dwMoveSize2, gESPGlobals.pDebugBuffer, dwMoveSizeWrapped2 ); } DrvFree (gESPGlobals.pDebugBuffer); gESPGlobals.pDebugBufferIn = pNewDebugBuffer + dwMoveSize2 + dwMoveSizeWrapped2; gESPGlobals.pDebugBuffer = gESPGlobals.pDebugBufferOut = pNewDebugBuffer; gESPGlobals.dwDebugBufferTotalSize *= 2; } if (gESPGlobals.pDebugBufferIn >= gESPGlobals.pDebugBufferOut) { DWORD dwFreeSize = gESPGlobals.dwDebugBufferTotalSize - (DWORD)(gESPGlobals.pDebugBufferIn - gESPGlobals.pDebugBuffer); if (dwMoveSize > dwFreeSize) { dwMoveSizeWrapped = dwMoveSize - dwFreeSize; dwMoveSize = dwFreeSize; } } CopyMemory (gESPGlobals.pDebugBufferIn, buf, dwMoveSize); if (dwMoveSizeWrapped != 0) { CopyMemory( gESPGlobals.pDebugBuffer, buf + dwMoveSize, dwMoveSizeWrapped ); gESPGlobals.pDebugBufferIn = gESPGlobals.pDebugBuffer + dwMoveSizeWrapped; } else { gESPGlobals.pDebugBufferIn += dwMoveSize; } gESPGlobals.dwDebugBufferUsedSize += dwTotalSize; LeaveCriticalSection (&gESPGlobals.DebugBufferCritSec); if (bAlertApp) { SetEvent (ghDebugOutputEvent); } va_end(ap); } char far * GetFlags( ULONG_PTR Flags, PLOOKUP pLookup ) { int i = 0, dwbufLen = 0; static char buf[256] = {0}; char far *p = (char far *) NULL; if (gbDisableUI == TRUE) { return NULL; } buf[0] = 0; for (i = 0; (Flags && (pLookup[i].dwVal != 0xffffffff)); i++) { if (Flags & pLookup[i].dwVal) { dwbufLen = lstrlenA(buf); lstrcpynA (buf+dwbufLen, pLookup[i].lpszVal, 256 - dwbufLen); dwbufLen = lstrlenA(buf); lstrcpynA (buf+dwbufLen, " ", 256 - dwbufLen); dwbufLen = lstrlenA(buf); Flags = Flags & (~ ((ULONG_PTR) pLookup[i].dwVal)); } } if (buf[0]) { if ((p = (char far *) DrvAlloc (lstrlenA (buf) + 1))) { lstrcpynA (p, buf, lstrlenA (buf)); } } return p; } void ShowLineEvent( HTAPILINE htLine, HTAPICALL htCall, DWORD dwMsg, ULONG_PTR Param1, ULONG_PTR Param2, ULONG_PTR Param3 ) { if (gESPGlobals.dwDebugOptions & SHOW_EVENT_NOTIFICATIONS) { static DWORD adwLineMsgs[] = { LINE_ADDRESSSTATE, LINE_CALLINFO, LINE_CALLSTATE, LINE_CLOSE, LINE_DEVSPECIFIC, LINE_DEVSPECIFICFEATURE, LINE_GATHERDIGITS, LINE_GENERATE, LINE_LINEDEVSTATE, LINE_MONITORDIGITS, LINE_MONITORMEDIA, LINE_MONITORTONE, LINE_CREATE, LINE_NEWCALL, LINE_CALLDEVSPECIFIC, LINE_CALLDEVSPECIFICFEATURE, LINE_REMOVE, 0xffffffff }; static char *aszLineMsgs[] = { "LINE_ADDRESSSTATE", "LINE_CALLINFO", "LINE_CALLSTATE", "LINE_CLOSE", "LINE_DEVSPECIFIC", "LINE_DEVSPECIFICFEATURE", "LINE_GATHERDIGITS", "LINE_GENERATE", "LINE_LINEDEVSTATE", "LINE_MONITORDIGITS", "LINE_MONITORMEDIA", "LINE_MONITORTONE", "LINE_CREATE", "LINE_NEWCALL", "LINE_CALLDEVSPECIFIC", "LINE_CALLDEVSPECIFICFEATURE", "LINE_REMOVE" }; int i; char far *lpszParam1 = (char far *) NULL; char far *lpszParam2 = (char far *) NULL; char far *lpszParam3 = (char far *) NULL; for (i = 0; adwLineMsgs[i] != 0xffffffff; i++) { if (dwMsg == adwLineMsgs[i]) { ShowStr( FALSE, "%ssent %s : htLine=x%x, htCall=x%x", szCallUp, aszLineMsgs[i], htLine, htCall ); break; } } if (adwLineMsgs[i] == 0xffffffff) { ShowStr( FALSE, "%ssent : htLine=x%x, htCall=x%x", szCallUp, dwMsg, htLine, htCall ); } switch (dwMsg) { case LINE_ADDRESSSTATE: lpszParam2 = GetFlags (Param2, aAddressStates); break; case LINE_CALLINFO: lpszParam1 = GetFlags (Param1, aCallInfoStates); break; case LINE_CALLSTATE: lpszParam1 = GetFlags (Param1, aCallStates); break; case LINE_LINEDEVSTATE: lpszParam1 = GetFlags (Param1, aLineStates); break; } // switch ShowStr( FALSE, "%s%sParam1=x%x, %s", szCallUp, szTab, Param1, (lpszParam1 ? lpszParam1 : "") ); ShowStr( FALSE, "%s%sParam2=x%x, %s", szCallUp, szTab, Param2, (lpszParam2 ? lpszParam2 : "") ); ShowStr( TRUE, "%s%sParam3=x%x, %s", szCallUp, szTab, Param3, (lpszParam3 ? lpszParam3 : "") ); if (lpszParam1) { DrvFree (lpszParam1); } if (lpszParam2) { DrvFree (lpszParam2); } if (lpszParam3) { DrvFree (lpszParam3); } } } void ShowPhoneEvent( HTAPIPHONE htPhone, DWORD dwMsg, ULONG_PTR Param1, ULONG_PTR Param2, ULONG_PTR Param3 ) { if (gESPGlobals.dwDebugOptions & SHOW_EVENT_NOTIFICATIONS) { static DWORD adwPhoneMsgs[] = { PHONE_BUTTON, PHONE_CLOSE, PHONE_DEVSPECIFIC, PHONE_STATE, PHONE_CREATE, PHONE_REMOVE, 0xffffffff }; static char *aszPhoneMsgs[] = { "PHONE_BUTTON", "PHONE_CLOSE", "PHONE_DEVSPECIFIC", "PHONE_STATE", "PHONE_CREATE", "PHONE_REMOVE" }; char far *lpszParam1 = (char far *) NULL; char far *lpszParam2 = (char far *) NULL; char far *lpszParam3 = (char far *) NULL; DWORD i; for (i = 0; adwPhoneMsgs[i] != 0xffffffff; i++) { if (dwMsg == adwPhoneMsgs[i]) { ShowStr( FALSE, "%ssent %s : htPhone=x%x", szCallUp, aszPhoneMsgs[i], htPhone ); break; } } if (adwPhoneMsgs[i] == 0xffffffff) { ShowStr( FALSE, "%ssent : htPhone=x%x", szCallUp, dwMsg, htPhone ); } switch (dwMsg) { case PHONE_BUTTON: lpszParam2 = GetFlags (Param2, aButtonModes); lpszParam3 = GetFlags (Param3, aButtonStates); break; case PHONE_STATE: lpszParam1 = GetFlags (Param1, aPhoneStates); break; } // switch ShowStr( FALSE, "%s%sParam1=x%x, %s", szCallUp, szTab, Param1, (lpszParam1 ? lpszParam1 : "") ); ShowStr( FALSE, "%s%sParam2=x%x, %s", szCallUp, szTab, Param2, (lpszParam2 ? lpszParam2 : "") ); ShowStr( TRUE, "%s%sParam3=x%x, %s", szCallUp, szTab, Param3, (lpszParam3 ? lpszParam3 : "") ); if (lpszParam1) { DrvFree (lpszParam1); } if (lpszParam2) { DrvFree (lpszParam2); } if (lpszParam3) { DrvFree (lpszParam3); } } } BOOL Prolog( PFUNC_INFO pInfo ) { BOOL bLineFunc = (pInfo->pszFuncName[1] != 'h'); DWORD i, j; ASSERT_SANITYCHECK; if (gESPGlobals.dwDebugOptions & SHOW_FUNC_ENTRY) { ShowStr (FALSE, "TSPI_%s: enter", pInfo->pszFuncName); } if (gESPGlobals.dwDebugOptions & SHOW_PARAMETERS) { for (i = 0; i < pInfo->dwNumParams; i++) { if (pInfo->aParams[i].dwVal && pInfo->aParams[i].lpszVal[3] == 'z') // "lpszXxx" { ShowStr( FALSE, "%s%s=x%x, '%ws'", szTab, pInfo->aParams[i].lpszVal, pInfo->aParams[i].dwVal, pInfo->aParams[i].dwVal ); } else if (pInfo->aParams[i].pLookup) { char buf[90]; int dwbufLen = 0; PLOOKUP pLookup = pInfo->aParams[i].pLookup; wsprintfA( buf, "%s%s=x%x, ", szTab, pInfo->aParams[i].lpszVal, pInfo->aParams[i].dwVal ); dwbufLen = lstrlenA(buf); for (j = 0; pLookup[j].dwVal != 0xffffffff; j++) { if (pInfo->aParams[i].dwVal & pLookup[j].dwVal) { dwbufLen = lstrlenA(buf); lstrcpynA (buf+dwbufLen, pLookup[j].lpszVal, 90 - dwbufLen); dwbufLen = lstrlenA(buf); lstrcpynA (buf+dwbufLen, " ", 90 - dwbufLen); dwbufLen = lstrlenA(buf); if (lstrlenA (buf) > 60) { ShowStr (FALSE, buf); wsprintfA (buf, "%s%s", szTab, szTab); dwbufLen = lstrlenA(buf); } } } ShowStr (FALSE, buf); } else { ShowStr( FALSE, "%s%s=x%x", szTab, pInfo->aParams[i].lpszVal, pInfo->aParams[i].dwVal ); } } } if (gESPGlobals.dwDebugOptions & (SHOW_PARAMETERS | SHOW_FUNC_ENTRY)) { SetEvent (ghDebugOutputEvent); } // // // if (gdwDevSpecificRequestID && glNextRequestResult != 0 && (pInfo->bAsync == FALSE || gdwNextRequestCompletionType == ESP_RESULT_RETURNRESULT) ) { gdwDevSpecificRequestID = 0; pInfo->lResult = glNextRequestResult; return FALSE; } if (gESPGlobals.dwDebugOptions & MANUAL_RESULTS) { char szDlgTitle[64]; EVENT_PARAM params[] = { { "lResult", PT_ORDINAL, 0, (bLineFunc ? aLineErrs : aPhoneErrs) } }; EVENT_PARAM_HEADER paramsHeader = { 1, szDlgTitle, 0, params }; HWND hwnd; wsprintfA (szDlgTitle, "TSPI_%s request result", pInfo->pszFuncName); DialogBoxParamA( ghInstance, (LPCSTR)MAKEINTRESOURCE(IDD_DIALOG1), (HWND) NULL, ValuesDlgProc, (LPARAM) ¶msHeader ); // // If user selected to synchronously return an error we'll save // the error & return FALSE to indicate to caller that it should // return immediately. // if (params[0].dwValue) { pInfo->lResult = (LONG) params[0].dwValue; return FALSE; } } if (pInfo->bAsync) { // // Alloc & init an async request info structure // PASYNC_REQUEST_INFO pAsyncReqInfo = (PASYNC_REQUEST_INFO) DrvAlloc (sizeof(ASYNC_REQUEST_INFO)); if ((pInfo->pAsyncReqInfo = pAsyncReqInfo)) { pAsyncReqInfo->pfnPostProcessProc = (FARPROC) pInfo->pfnPostProcessProc; pAsyncReqInfo->dwRequestID = (DWORD)pInfo->aParams[0].dwVal; pAsyncReqInfo->pszFuncName = pInfo->pszFuncName; } else { pInfo->lResult = (bLineFunc ? LINEERR_OPERATIONFAILED : PHONEERR_OPERATIONFAILED); return FALSE; } } ASSERT_SANITYCHECK; return TRUE; } LONG Epilog( PFUNC_INFO pInfo ) { ASSERT_SANITYCHECK; if (pInfo->bAsync) { PASYNC_REQUEST_INFO pAsyncReqInfo = pInfo->pAsyncReqInfo; if (pInfo->lResult == 0) { // // // if (gdwDevSpecificRequestID && pInfo->aParams[0].dwVal != gdwDevSpecificRequestID) { gdwDevSpecificRequestID = 0; if (glNextRequestResult != 0) { pAsyncReqInfo->lResult = glNextRequestResult; } if (gdwNextRequestCompletionType == ESP_RESULT_CALLCOMPLPROCASYNC) { goto complete_event_async; } else { goto complete_event_sync; } } switch (gESPGlobals.dwCompletionMode) { case COMPLETE_ASYNC_EVENTS_SYNCHRONOUSLY: // // We're completing this async request synchronously, so call // the post processing proc (if there is one) or call the // completion routine directly // complete_event_sync: if (pInfo->pAsyncReqInfo->pfnPostProcessProc) { (*((POSTPROCESSPROC) pAsyncReqInfo->pfnPostProcessProc))( pInfo->pAsyncReqInfo, SYNC ); } else { DoCompletion (pAsyncReqInfo, SYNC); } DrvFree (pAsyncReqInfo); break; case COMPLETE_ASYNC_EVENTS_ASYNCHRONOUSLY: // // Safely add the async request to the queue (careful to // reset pDataIn when we reach the end of the buffer) // complete_event_async: EnterCriticalSection (&gESPGlobals.AsyncEventQueueCritSec); if (gESPGlobals.dwNumUsedQueueEntries == gESPGlobals.dwNumTotalQueueEntries) { // // We've max'd out our ring buf, so try to grow it // DWORD dwMoveSize; PASYNC_REQUEST_INFO *pNewAsyncRequestQueue; if (!(pNewAsyncRequestQueue = DrvAlloc( 2 * gESPGlobals.dwNumTotalQueueEntries * sizeof (DWORD) ))) { LeaveCriticalSection( &gESPGlobals.AsyncEventQueueCritSec ); goto complete_event_sync; } dwMoveSize = (DWORD) ((gESPGlobals.pAsyncRequestQueue + gESPGlobals.dwNumTotalQueueEntries) - gESPGlobals.pAsyncRequestQueueOut) * sizeof (DWORD); CopyMemory( pNewAsyncRequestQueue, gESPGlobals.pAsyncRequestQueueOut, dwMoveSize ); CopyMemory( ((LPBYTE) pNewAsyncRequestQueue) + dwMoveSize, gESPGlobals.pAsyncRequestQueue, (gESPGlobals.pAsyncRequestQueueOut - gESPGlobals.pAsyncRequestQueue) * sizeof (DWORD) ); DrvFree (gESPGlobals.pAsyncRequestQueue); gESPGlobals.pAsyncRequestQueue = gESPGlobals.pAsyncRequestQueueOut = pNewAsyncRequestQueue; gESPGlobals.pAsyncRequestQueueIn = pNewAsyncRequestQueue + gESPGlobals.dwNumTotalQueueEntries; gESPGlobals.dwNumTotalQueueEntries *= 2; } *(gESPGlobals.pAsyncRequestQueueIn) = pAsyncReqInfo; gESPGlobals.pAsyncRequestQueueIn++; if (gESPGlobals.pAsyncRequestQueueIn == (gESPGlobals.pAsyncRequestQueue + gESPGlobals.dwNumTotalQueueEntries)) { gESPGlobals.pAsyncRequestQueueIn = gESPGlobals.pAsyncRequestQueue; } gESPGlobals.dwNumUsedQueueEntries++; if (gESPGlobals.dwNumUsedQueueEntries == 1) { SetEvent (gESPGlobals.hAsyncEventsPendingEvent); } LeaveCriticalSection (&gESPGlobals.AsyncEventQueueCritSec); break; case COMPLETE_ASYNC_EVENTS_SYNC_AND_ASYNC: { // // Decide whether to complete this request sync or async, // then jump to the right place // static i = 0; if (i++ % 2) { goto complete_event_sync; } else { goto complete_event_async; } break; } case COMPLETE_ASYNC_EVENTS_MANUALLY: WriteEventBuffer( (ULONG_PTR) pAsyncReqInfo->dwRequestID, WIDGETTYPE_ASYNCREQUEST, (ULONG_PTR) pAsyncReqInfo, 0, 0, 0 ); break; } // // Finally, return the request ID // pInfo->lResult = (DWORD) pInfo->aParams[0].dwVal; } else if (pAsyncReqInfo) { DrvFree (pAsyncReqInfo); } } if (gESPGlobals.dwDebugOptions & SHOW_FUNC_EXIT) { ShowStr( TRUE, "TSPI_%s: exit, returning x%x", pInfo->pszFuncName, pInfo->lResult ); } ASSERT_SANITYCHECK; return (pInfo->lResult); } void PASCAL SendLineEvent( PDRVLINE pLine, PDRVCALL pCall, DWORD dwMsg, ULONG_PTR Param1, ULONG_PTR Param2, ULONG_PTR Param3 ) { // // // (*(gESPGlobals.pfnLineEvent))( pLine->htLine, (pCall ? pCall->htCall : (HTAPICALL) NULL), dwMsg, Param1, Param2, Param3 ); if (dwMsg == LINE_CALLSTATE) { //PostUpdateWidgetListMsg(); } ShowLineEvent( pLine->htLine, (pCall ? pCall->htCall : (HTAPICALL) NULL), dwMsg, Param1, Param2, Param3 ); } void PASCAL SendPhoneEvent( PDRVPHONE pPhone, DWORD dwMsg, ULONG_PTR Param1, ULONG_PTR Param2, ULONG_PTR Param3 ) { // // // (*(gESPGlobals.pfnPhoneEvent))( pPhone->htPhone, dwMsg, Param1, Param2, Param3 ); ShowPhoneEvent( pPhone->htPhone, dwMsg, Param1, Param2, Param3 ); } void PASCAL DoCompletion( PASYNC_REQUEST_INFO pAsyncRequestInfo, BOOL bAsync ) { (*(gESPGlobals.pfnCompletion))( pAsyncRequestInfo->dwRequestID, pAsyncRequestInfo->lResult ); if (gESPGlobals.dwDebugOptions & SHOW_COMPLETION_NOTIFICATIONS) { ShowStr( TRUE, "%sTSPI_%s: calling compl proc (%ssync), dwReqID=x%x, lResult = x%x", szCallUp, pAsyncRequestInfo->pszFuncName, (bAsync ? "a" : ""), pAsyncRequestInfo->dwRequestID, pAsyncRequestInfo->lResult ); } } LONG PASCAL SetCallState( PDRVCALL pCall, DWORD dwExpectedCallInstance, DWORD dwValidCurrentStates, DWORD dwNewCallState, ULONG_PTR dwNewCallStateMode, BOOL bSendStateMsgToExe ) { LONG lResult = 0; DWORD dwActualCallInstance; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (!IsValidDrvCall (pCall, &dwActualCallInstance) || dwActualCallInstance != dwExpectedCallInstance) { LeaveCriticalSection (&gESPGlobals.CallListCritSec); return LINEERR_INVALCALLHANDLE; } if (lResult == 0) { // // Check to see that the call is in a valid (expected) state. // If dwValidCurrentStates == 0xffffffff then we want to chg the // state regardless of the current state. // if ((dwValidCurrentStates != 0xffffffff) && !(dwValidCurrentStates & pCall->dwCallState)) { LeaveCriticalSection (&gESPGlobals.CallListCritSec); return LINEERR_INVALCALLSTATE; } // // Only chg the call state if it differs from the existing one // if (dwNewCallState != pCall->dwCallState) { pCall->dwCallState = dwNewCallState; pCall->dwCallStateMode = (DWORD) dwNewCallStateMode; SendLineEvent( pCall->pLine, pCall, LINE_CALLSTATE, dwNewCallState, dwNewCallStateMode, pCall->dwMediaMode ); if (bSendStateMsgToExe) { WriteEventBuffer( ((PDRVLINE) pCall->pLine)->dwDeviceID, WIDGETTYPE_CALL, (ULONG_PTR) pCall, (ULONG_PTR) pCall->htCall, dwNewCallState, pCall->dwAddressID ); } // // If this call has an associated call/endpoint then pass // connected (1st time only) or disconnected msgs to that // call so they know if we've answered or hung up // if (pCall->pDestCall) { if (dwNewCallState == LINECALLSTATE_CONNECTED) { if (!pCall->bConnectedToDestCall) { if (IsValidDrvCall (pCall->pDestCall, NULL)) { if (SetCallState( pCall->pDestCall, pCall->pDestCall->dwCallInstance, 0xffffffff, LINECALLSTATE_CONNECTED, 0, TRUE ) == 0) { // NOTE: use 0x55 to aid in debugging // wild writes pCall->bConnectedToDestCall = pCall->pDestCall->bConnectedToDestCall = 0x55; } } else { pCall->pDestCall = NULL; } } } else if (dwNewCallState == LINECALLSTATE_IDLE || dwNewCallState == LINECALLSTATE_DISCONNECTED) { pCall->pDestCall->pDestCall = NULL; SetCallState( pCall->pDestCall, pCall->pDestCall->dwCallInstance, 0xffffffff, LINECALLSTATE_DISCONNECTED, (dwNewCallState == LINECALLSTATE_DISCONNECTED ? dwNewCallStateMode : LINEDISCONNECTMODE_NORMAL), TRUE ); pCall->pDestCall = NULL; } } } } LeaveCriticalSection (&gESPGlobals.CallListCritSec); return lResult; } void PASCAL WriteEventBuffer( ULONG_PTR Param1, ULONG_PTR Param2, ULONG_PTR Param3, ULONG_PTR Param4, ULONG_PTR Param5, ULONG_PTR Param6 ) { WIDGETEVENT event ={ Param1, Param2, Param3, Param4, Param5, Param6 }; if (gbDisableUI == TRUE) { return; } EnterCriticalSection (&gESPGlobals.EventBufferCritSec); if ((gESPGlobals.dwEventBufferUsedSize + sizeof (WIDGETEVENT)) > gESPGlobals.dwEventBufferTotalSize) { // // We've max'd out our ring buf, so try to grow it // char *pNewEventBuffer; DWORD dwMoveSize; if (!(pNewEventBuffer = DrvAlloc ( 2 * gESPGlobals.dwEventBufferTotalSize ))) { LeaveCriticalSection (&gESPGlobals.EventBufferCritSec); // log some sort of error return; } dwMoveSize = (DWORD) (gESPGlobals.pEventBuffer + gESPGlobals.dwEventBufferTotalSize - gESPGlobals.pEventBufferOut); CopyMemory (pNewEventBuffer, gESPGlobals.pEventBufferOut, dwMoveSize); CopyMemory( pNewEventBuffer + dwMoveSize, gESPGlobals.pEventBuffer, gESPGlobals.pEventBufferOut - gESPGlobals.pEventBuffer ); DrvFree (gESPGlobals.pEventBuffer); gESPGlobals.pEventBuffer = gESPGlobals.pEventBufferOut = pNewEventBuffer; gESPGlobals.pEventBufferIn = pNewEventBuffer + gESPGlobals.dwEventBufferTotalSize; gESPGlobals.dwEventBufferTotalSize *= 2; } CopyMemory (gESPGlobals.pEventBufferIn, &event, sizeof (WIDGETEVENT)); gESPGlobals.dwEventBufferUsedSize += sizeof (WIDGETEVENT); if ((gESPGlobals.pEventBufferIn += sizeof (WIDGETEVENT)) >= (gESPGlobals.pEventBuffer + gESPGlobals.dwEventBufferTotalSize)) { gESPGlobals.pEventBufferIn = gESPGlobals.pEventBuffer; } SetEvent (ghWidgetEventsEvent); LeaveCriticalSection (&gESPGlobals.EventBufferCritSec); } LPVOID DrvAlloc( size_t numBytes ) { LPVOID p = HeapAlloc (ghESPHeap, HEAP_ZERO_MEMORY, numBytes); if (!p) { ShowStr (TRUE, "Error: DrvAlloc (x%x) failed", (DWORD) numBytes); } return p; } void DrvFree( LPVOID p ) { if (p) { #if DBG // // Fill the buf to free with 0xa5's to facilitate debugging // FillMemory (p, HeapSize (ghESPHeap, 0, p), 0xa5); #endif HeapFree (ghESPHeap, 0, p); } } PDRVADDRESS PASCAL FindFreeAddress( PDRVLINE pLine ) { DWORD i; PDRVADDRESS pAddr = pLine->aAddrs; for (i = 0; i < gESPGlobals.dwNumAddressesPerLine; i++) { if (pAddr->dwNumCalls < gESPGlobals.dwNumCallsPerAddress) { return pAddr; } pAddr++; } return NULL; } LONG PASCAL AllocCall( PDRVLINE pLine, HTAPICALL htCall, LPLINECALLPARAMS pCallParams, PDRVCALL *ppCall ) { LONG lResult = 0; DWORD i; PDRVCALL pCall; PDRVADDRESS pAddr; if (!(pCall = (PDRVCALL) DrvAlloc (sizeof (DRVCALL)))) { return LINEERR_NOMEM; } pCall->pLine = pLine; pCall->htCall = htCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (!pCallParams) { if (!(pAddr = FindFreeAddress (pLine))) { lResult = LINEERR_CALLUNAVAIL; goto AllocCall_cleanup; } if (pLine->dwMediaModes) pCall->dwMediaMode = pLine->dwMediaModes; else pCall->dwMediaMode = LINEMEDIAMODE_INTERACTIVEVOICE; pCall->dwBearerMode = LINEBEARERMODE_VOICE; pCall->dwAddressType = LINEADDRESSTYPE_PHONENUMBER; } else { AllocCall_findTheAddr: if (pCallParams->dwAddressMode == LINEADDRESSMODE_ADDRESSID) { if (pCallParams->dwAddressID >= gESPGlobals.dwNumAddressesPerLine) { lResult = LINEERR_INVALADDRESSID; goto AllocCall_cleanup; } if (pCallParams->dwAddressID == 0) { // // App doesn't care which addr to make call on // if (!(pAddr = FindFreeAddress (pLine))) { lResult = LINEERR_CALLUNAVAIL; goto AllocCall_cleanup; } } else { // // App wants call on a particular addr // pAddr = pLine->aAddrs + pCallParams->dwAddressID; if (pAddr->dwNumCalls > gESPGlobals.dwNumCallsPerAddress) { lResult = LINEERR_CALLUNAVAIL; goto AllocCall_cleanup; } } } else // (pCallParams->dwAddressMode == LINEADDRESSMODE_DIALABLEADDR) { // BUGBUG AllocCall: handle dialable addr pCallParams->dwAddressMode = LINEADDRESSMODE_ADDRESSID; pCallParams->dwAddressID = 0; goto AllocCall_findTheAddr; } pCall->dwMediaMode = pCallParams->dwMediaMode; pCall->dwBearerMode = pCallParams->dwBearerMode; if (gESPGlobals.dwSPIVersion >= 0x00020000) { // copy call data if (pCallParams->dwCallDataSize && (pCall->pCallData = DrvAlloc (pCallParams->dwCallDataSize)) ) { pCall->dwCallDataSize = pCallParams->dwCallDataSize; CopyMemory (pCall->pCallData, ((BYTE *)pCallParams) + pCallParams->dwCallDataOffset, pCallParams->dwCallDataSize); } } if (gESPGlobals.dwSPIVersion >= 0x00030000) { pCall->dwAddressType = pCallParams->dwAddressType; } } // // Call was successfully "made", so do all the common stuff like // adding it to the addr's list, setting the attributes, etc... // if ((pCall->pNext = pAddr->pCalls)) { pCall->pNext->pPrev = pCall; } pAddr->pCalls = pCall; pAddr->dwNumCalls++; pCall->dwKey = DRVCALL_KEY; pCall->pLine = pLine; pCall->dwAddressID = (DWORD) (pAddr - pLine->aAddrs); pCall->dwCallInstance = gdwCallInstance++; pCall->dwCallID = (++gdwCallID ? gdwCallID : ++gdwCallID); pCall->dwRelatedCallID = 0; AllocCall_cleanup: LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (lResult == 0) { *ppCall = pCall; } else { DrvFree (pCall); } return lResult; } void PASCAL FreeCall( PDRVCALL pCall, DWORD dwExpectedCallInstance ) { DWORD dwActualCallInstance; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, &dwActualCallInstance) && dwActualCallInstance == dwExpectedCallInstance) { PDRVADDRESS pAddr; pCall->dwKey = INVAL_KEY; pAddr = ((PDRVLINE) pCall->pLine)->aAddrs + pCall->dwAddressID; if (pCall->pNext) { pCall->pNext->pPrev = pCall->pPrev; } if (pCall->pPrev) { pCall->pPrev->pNext = pCall->pNext; } else { pAddr->pCalls = pCall->pNext; } if (pCall->pDestCall) { pCall->pDestCall->pDestCall = NULL; SetCallState( pCall->pDestCall, pCall->pDestCall->dwCallInstance, 0xffffffff, LINECALLSTATE_DISCONNECTED, LINEDISCONNECTMODE_NORMAL, TRUE ); pCall->pDestCall = NULL; } pAddr->dwNumCalls--; } else { pCall = NULL; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); if (pCall) { if (pCall->pSendingFlowspec) { DrvFree (pCall->pSendingFlowspec); } if (pCall->pReceivingFlowspec) { DrvFree (pCall->pReceivingFlowspec); } if (pCall->pCallData) { DrvFree (pCall->pCallData); } if (pCall->dwGatherDigitsEndToEndID) { (gESPGlobals.pfnLineEvent)( ((PDRVLINE) pCall->pLine)->htLine, pCall->htCall, LINE_GATHERDIGITS, LINEGATHERTERM_CANCEL, pCall->dwGatherDigitsEndToEndID, 0 ); } if (pCall->dwGenerateDigitsEndToEndID) { (gESPGlobals.pfnLineEvent)( ((PDRVLINE) pCall->pLine)->htLine, pCall->htCall, LINE_GENERATE, LINEGENERATETERM_CANCEL, pCall->dwGenerateDigitsEndToEndID, 0 ); } if (pCall->dwGenerateToneEndToEndID) { (gESPGlobals.pfnLineEvent)( ((PDRVLINE) pCall->pLine)->htLine, pCall->htCall, LINE_GENERATE, LINEGENERATETERM_CANCEL, pCall->dwGenerateToneEndToEndID, 0 ); } if (pCall->dwMonitorToneListID) { (gESPGlobals.pfnLineEvent)( ((PDRVLINE) pCall->pLine)->htLine, pCall->htCall, LINE_MONITORTONE, 0, pCall->dwMonitorToneListID, 0 ); } DrvFree (pCall); } } PDRVLINE PASCAL GetLineFromID( DWORD dwDeviceID ) { DWORD i; PDRVLINE pLine; if (dwDeviceID < gESPGlobals.dwLineDeviceIDBase) { pLine = (PDRVLINE) NULL; } else if (dwDeviceID < (gESPGlobals.dwLineDeviceIDBase + gESPGlobals.dwInitialNumLines)) { pLine = (PDRVLINE) (((LPBYTE) gESPGlobals.pLines->aLines) + ((dwDeviceID - gESPGlobals.dwLineDeviceIDBase) * gdwDrvLineSize)); } else { pLine = (PDRVLINE) (((LPBYTE) gESPGlobals.pLines->aLines) + (gESPGlobals.dwInitialNumLines * gdwDrvLineSize)); for( i = gESPGlobals.dwInitialNumLines; i < gESPGlobals.pLines->dwNumUsedEntries; i++ ) { if (pLine->dwDeviceID == dwDeviceID) { return pLine; } pLine = (PDRVLINE) (((LPBYTE) pLine) + gdwDrvLineSize); } pLine = (PDRVLINE) NULL; } return pLine; } PDRVPHONE PASCAL GetPhoneFromID( DWORD dwDeviceID ) { DWORD i; PDRVPHONE pPhone; if (dwDeviceID < gESPGlobals.dwPhoneDeviceIDBase) { pPhone = (PDRVPHONE) NULL; } else if (dwDeviceID < (gESPGlobals.dwPhoneDeviceIDBase + gESPGlobals.dwInitialNumPhones)) { pPhone = gESPGlobals.pPhones->aPhones + (dwDeviceID - gESPGlobals.dwPhoneDeviceIDBase); } else { pPhone = gESPGlobals.pPhones->aPhones + gESPGlobals.dwInitialNumPhones; for( i = gESPGlobals.dwInitialNumPhones; i < gESPGlobals.pPhones->dwNumUsedEntries; i++, pPhone++ ) { if (pPhone->dwDeviceID == dwDeviceID) { return pPhone; } } pPhone = (PDRVPHONE) NULL; } return pPhone; } long ESPAttach( long lProcessID, ULONG_PTR *phShutdownEvent, ULONG_PTR *phDebugOutputEvent, ULONG_PTR *phWidgetEventsEvent ) { HANDLE hMyProcess, hEspExeProcess; hMyProcess = GetCurrentProcess(); hEspExeProcess = OpenProcess( PROCESS_DUP_HANDLE, TRUE, (DWORD) lProcessID ); if (!DuplicateHandle( hMyProcess, ghDebugOutputEvent, hEspExeProcess, (HANDLE *) phDebugOutputEvent, 0, FALSE, DUPLICATE_SAME_ACCESS ) || !DuplicateHandle( hMyProcess, ghShutdownEvent, hEspExeProcess, (HANDLE *) phShutdownEvent, 0, FALSE, DUPLICATE_SAME_ACCESS ) || !DuplicateHandle( hMyProcess, ghWidgetEventsEvent, hEspExeProcess, (HANDLE *) phWidgetEventsEvent, 0, FALSE, DUPLICATE_SAME_ACCESS )) { DBGOUT((1, "ESPAttach: DupHandle failed, err=%d", GetLastError())); CloseHandle(hEspExeProcess); /* bug 49690 */ return -1; } return 0; } void ESPSetOptions( long lDebugOptions, long lCompletionMode ) { gESPGlobals.dwDebugOptions = (DWORD) lDebugOptions; gESPGlobals.dwCompletionMode = (DWORD) lCompletionMode; if (!gbInteractWithDesktop) { gESPGlobals.dwDebugOptions &= ~MANUAL_RESULTS; } } void ESPCompleteRequest( ULONG_PTR lAsyncReqInfo, long lResult ) { PASYNC_REQUEST_INFO pAsyncReqInfo = (PASYNC_REQUEST_INFO) lAsyncReqInfo; pAsyncReqInfo->lResult = lResult; if (pAsyncReqInfo->pfnPostProcessProc) { (*((POSTPROCESSPROC) pAsyncReqInfo->pfnPostProcessProc))( pAsyncReqInfo, ASYNC ); } else { DoCompletion (pAsyncReqInfo, ASYNC); } DrvFree (pAsyncReqInfo); } long ESPEvent( ULONG_PTR htDevice, ULONG_PTR htCall, ULONG_PTR Msg, ULONG_PTR Param1, ULONG_PTR Param2, ULONG_PTR Param3 ) { switch (Msg) { case LINE_CALLSTATE: { DWORD dwCallInst; // BUGBUG when state == conf or prevState == conf need to add/rem conf list try { dwCallInst = ((PDRVCALL) htCall)->dwCallInstance; } except (GetExceptionCode() == EXCEPTION_ACCESS_VIOLATION ? EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH) { break; } SetCallState( (PDRVCALL) htCall, dwCallInst, 0xffffffff, (DWORD) Param1, (DWORD) Param2, TRUE ); break; } case LINE_REMOVE: // // Ignore invalid device ID // if (!GetLineFromID((DWORD)Param1)) break; case LINE_ADDRESSSTATE: case LINE_CALLDEVSPECIFIC: case LINE_CALLDEVSPECIFICFEATURE: case LINE_CALLINFO: case LINE_CLOSE: case LINE_DEVSPECIFIC: case LINE_DEVSPECIFICFEATURE: case LINE_GATHERDIGITS: case LINE_GENERATE: case LINE_LINEDEVSTATE: case LINE_MONITORDIGITS: case LINE_MONITORMEDIA: case LINE_MONITORTONE: (*gESPGlobals.pfnLineEvent)( (HTAPILINE) htDevice, (HTAPICALL) htCall, (DWORD) Msg, Param1, Param2, Param3 ); ShowLineEvent( (HTAPILINE) htDevice, (HTAPICALL) htCall, (DWORD) Msg, Param1, Param2, Param3 ); break; case LINE_CREATEDIALOGINSTANCE: { TUISPICREATEDIALOGINSTANCEPARAMS createDlgParams; ZeroMemory( &createDlgParams, sizeof (TUISPICREATEDIALOGINSTANCEPARAMS) ); createDlgParams.dwRequestID = (DWORD) Param1; createDlgParams.hdDlgInst = (HDRVDIALOGINSTANCE) 0x55; createDlgParams.lpszUIDLLName = szESPUIDLL; createDlgParams.lpParams = "genDlg params"; createDlgParams.dwSize = 14; (*gESPGlobals.pfnLineEvent)( (HTAPILINE) gESPGlobals.hProvider, (HTAPICALL) NULL, LINE_CREATEDIALOGINSTANCE, (ULONG_PTR) &createDlgParams, 0, 0 ); ShowLineEvent( (HTAPILINE) gESPGlobals.hProvider, NULL, LINE_CREATEDIALOGINSTANCE, (ULONG_PTR) &createDlgParams, 0, 0 ); break; } case LINE_SENDDIALOGINSTANCEDATA: { char data[] = "dlgInstData"; (*gESPGlobals.pfnLineEvent)( (HTAPILINE) Param1, (HTAPICALL) NULL, LINE_SENDDIALOGINSTANCEDATA, (ULONG_PTR) data, 12, 0 ); ShowLineEvent( (HTAPILINE) Param1, NULL, LINE_CREATEDIALOGINSTANCE, (ULONG_PTR) data, 12, 0 ); break; } case PHONE_BUTTON: case PHONE_CLOSE: case PHONE_DEVSPECIFIC: case PHONE_STATE: case PHONE_REMOVE: (*gESPGlobals.pfnPhoneEvent)( (HTAPIPHONE) htDevice, (DWORD) Msg, Param1, Param2, Param3 ); ShowPhoneEvent( (HTAPIPHONE) htDevice, (DWORD) Msg, Param1, Param2, Param3 ); break; case LINE_CREATE: if (gESPGlobals.pLines->dwNumUsedEntries < gESPGlobals.pLines->dwNumTotalEntries) { (*gESPGlobals.pfnLineEvent)( (HTAPILINE) NULL, (HTAPICALL) NULL, LINE_CREATE, (ULONG_PTR) gESPGlobals.hProvider, (ULONG_PTR) gESPGlobals.pLines->dwNumUsedEntries, (ULONG_PTR) 0 ); ShowLineEvent( (HTAPILINE) NULL, (HTAPICALL) NULL, LINE_CREATE, (ULONG_PTR) gESPGlobals.hProvider, gESPGlobals.pLines->dwNumUsedEntries++, (ULONG_PTR) 0 ); } else { ShowStr( TRUE, "ERROR: attempt to send LINE_CREATE - can't create " \ "any more devices on the fly" ); } break; case PHONE_CREATE: if (gESPGlobals.pPhones->dwNumUsedEntries < gESPGlobals.pPhones->dwNumTotalEntries) { (*gESPGlobals.pfnPhoneEvent)( (HTAPIPHONE) NULL, PHONE_CREATE, (ULONG_PTR) gESPGlobals.hProvider, (ULONG_PTR) gESPGlobals.pPhones->dwNumUsedEntries, (ULONG_PTR) 0 ); ShowPhoneEvent( (HTAPIPHONE) NULL, PHONE_CREATE, (ULONG_PTR) gESPGlobals.hProvider, gESPGlobals.pPhones->dwNumUsedEntries++, 0 ); } else { ShowStr( TRUE, "ERROR: attempt to send PHONE_CREATE - can't create " \ "any more devices on the fly" ); } break; } return 0; } void ESPGetDebugOutput( unsigned char *pBuffer, long *plSize ) { DWORD dwTotalSize, dwMoveSize, dwMoveSizeWrapped; if (IsBadWritePtr (plSize, sizeof(long)) || IsBadWritePtr (pBuffer, *plSize)) { return; } EnterCriticalSection (&gESPGlobals.DebugBufferCritSec); dwMoveSize = dwTotalSize = ((DWORD) *plSize < gESPGlobals.dwDebugBufferUsedSize ? (DWORD)*plSize : gESPGlobals.dwDebugBufferUsedSize); if ((DWORD) (gESPGlobals.pDebugBuffer + gESPGlobals.dwDebugBufferTotalSize - gESPGlobals.pDebugBufferOut) > dwTotalSize) { dwMoveSizeWrapped = 0; } else { dwMoveSize = (DWORD) (gESPGlobals.pDebugBuffer + gESPGlobals.dwDebugBufferTotalSize - gESPGlobals.pDebugBufferOut); dwMoveSizeWrapped = dwTotalSize - dwMoveSize; } CopyMemory( pBuffer, gESPGlobals.pDebugBufferOut, dwMoveSize ); if (dwMoveSizeWrapped) { CopyMemory( pBuffer + dwMoveSize, gESPGlobals.pDebugBuffer, dwMoveSizeWrapped ); gESPGlobals.pDebugBufferOut = gESPGlobals.pDebugBuffer + dwMoveSizeWrapped; } else { gESPGlobals.pDebugBufferOut += dwTotalSize; } gESPGlobals.dwDebugBufferUsedSize -= dwTotalSize; LeaveCriticalSection (&gESPGlobals.DebugBufferCritSec); ResetEvent (ghDebugOutputEvent); *plSize = (long) dwTotalSize; } void ESPGetWidgetEvents( unsigned char *pBuffer, long *plSize ) { DWORD dwTotalSize, dwMoveSize, dwMoveSizeWrapped; if (IsBadWritePtr (plSize, sizeof(long)) || IsBadWritePtr (pBuffer, *plSize)) { return; } EnterCriticalSection (&gESPGlobals.EventBufferCritSec); dwMoveSize = dwTotalSize = ((DWORD) *plSize < gESPGlobals.dwEventBufferUsedSize ? (DWORD)*plSize : gESPGlobals.dwEventBufferUsedSize); if ((DWORD) (gESPGlobals.pEventBuffer + gESPGlobals.dwEventBufferTotalSize - gESPGlobals.pEventBufferOut) > dwTotalSize) { dwMoveSizeWrapped = 0; } else { dwMoveSize = (DWORD) (gESPGlobals.pEventBuffer + gESPGlobals.dwEventBufferTotalSize - gESPGlobals.pEventBufferOut); dwMoveSizeWrapped = dwTotalSize - dwMoveSize; } CopyMemory( pBuffer, gESPGlobals.pEventBufferOut, dwMoveSize ); if (dwMoveSizeWrapped) { CopyMemory( pBuffer + dwMoveSize, gESPGlobals.pEventBuffer, dwMoveSizeWrapped ); gESPGlobals.pEventBufferOut = gESPGlobals.pEventBuffer + dwMoveSizeWrapped; } else { gESPGlobals.pEventBufferOut += dwTotalSize; } gESPGlobals.dwEventBufferUsedSize -= dwTotalSize; LeaveCriticalSection (&gESPGlobals.EventBufferCritSec); ResetEvent (ghWidgetEventsEvent); *plSize = (long) dwTotalSize; } long ESPStartPBXThread( unsigned char *pBuffer, long lSize ) { long *pPBXSettings; DWORD dwThreadID; if ((pPBXSettings = DrvAlloc (lSize))) { CopyMemory (pPBXSettings, pBuffer, lSize); gbExitPBXThread = FALSE; if ((ghPBXThread = CreateThread( (LPSECURITY_ATTRIBUTES) NULL, 0, (LPTHREAD_START_ROUTINE) PBXThread, (LPVOID) pPBXSettings, 0, &dwThreadID ))) { return 0; } DrvFree (pPBXSettings); } return -1; } long ESPStopPBXThread( long lDummy ) { gbExitPBXThread = TRUE; WaitForSingleObject (ghPBXThread, INFINITE); CloseHandle (ghPBXThread); ghPBXThread = NULL; return 0; } void __RPC_FAR * __RPC_API midl_user_allocate( size_t len ) { return (DrvAlloc (len)); } void __RPC_API midl_user_free( void __RPC_FAR * ptr ) { DrvFree (ptr); } #if DBG VOID DbgPrt( IN DWORD dwDbgLevel, IN PUCHAR lpszFormat, IN ... ) /*++ Routine Description: Formats the incoming debug message & calls DbgPrint Arguments: DbgLevel - level of message verboseness DbgMessage - printf-style format string, followed by appropriate list of arguments Return Value: --*/ { if (dwDbgLevel <= gdwDebugLevel) { char buf[128] = "ESP32: "; va_list ap; va_start(ap, lpszFormat); wvsprintf (&buf[7], lpszFormat, ap); lstrcatA (buf, "\n"); OutputDebugStringA (buf); va_end(ap); } } #endif BOOL ScanForDWORD( char far *pBuf, ULONG_PTR *lpdw ) { char c; BOOL bValid = FALSE; ULONG_PTR d = 0; while ((c = *pBuf)) { if ((c >= '0') && (c <= '9')) { c -= '0'; } else if ((c >= 'a') && (c <= 'f')) { c -= ('a' - 10); } else if ((c >= 'A') && (c <= 'F')) { c -= ('A' - 10); } else { break; } bValid = TRUE; d *= 16; d += (DWORD) c; pBuf++; } if (bValid) { *lpdw = d; } return bValid; } INT_PTR CALLBACK ValuesDlgProc( HWND hwnd, UINT msg, WPARAM wParam, LPARAM lParam ) { DWORD i; static HWND hwndCombo, hwndList1, hwndList2; static LRESULT lLastSel; static char szComboText[MAX_STRING_PARAM_SIZE]; static PEVENT_PARAM_HEADER pParamsHeader; switch (msg) { case WM_INITDIALOG: { hwndList1 = GetDlgItem (hwnd, IDC_LIST1); hwndList2 = GetDlgItem (hwnd, IDC_LIST2); hwndCombo = GetDlgItem (hwnd, IDC_COMBO1); lLastSel = -1; pParamsHeader = (PEVENT_PARAM_HEADER) lParam; // // Limit the max text length for the combobox's edit field // (NOTE: A combobox ctrl actually has two child windows: a // edit ctrl & a listbox. We need to get the hwnd of the // child edit ctrl & send it the LIMITTEXT msg.) // { HWND hwndChild = GetWindow (hwndCombo, GW_CHILD); while (hwndChild) { char buf[8]; GetClassName (hwndChild, buf, 7); if (_stricmp (buf, "edit") == 0) { break; } hwndChild = GetWindow (hwndChild, GW_HWNDNEXT); } SendMessage( hwndChild, EM_LIMITTEXT, (WPARAM) MAX_STRING_PARAM_SIZE - 1, 0 ); } // // Misc other init // SetWindowText (hwnd, pParamsHeader->pszDlgTitle); for (i = 0; i < pParamsHeader->dwNumParams; i++) { SendMessage( hwndList1, LB_INSERTSTRING, (WPARAM) -1, (LPARAM) pParamsHeader->aParams[i].szName ); } break; } case WM_COMMAND: { switch (LOWORD(wParam)) { case IDOK: if (lLastSel != -1) { char buf[MAX_STRING_PARAM_SIZE]; // // Save val of currently selected param // i = GetDlgItemText( hwnd, IDC_COMBO1, buf, MAX_STRING_PARAM_SIZE - 1 ); switch (pParamsHeader->aParams[lLastSel].dwType) { case PT_STRING: { LRESULT lComboSel; lComboSel = SendMessage (hwndCombo, CB_GETCURSEL, 0, 0); if (lComboSel == 0) // "NULL string (dwXxxSize = 0)" { pParamsHeader->aParams[lLastSel].dwValue = 0; } else // "Valid string" { strncpy( pParamsHeader->aParams[lLastSel].buf, buf, MAX_STRING_PARAM_SIZE - 1 ); pParamsHeader->aParams[lLastSel].buf[MAX_STRING_PARAM_SIZE-1] = 0; pParamsHeader->aParams[lLastSel].dwValue = (ULONG_PTR) pParamsHeader->aParams[lLastSel].buf; } break; } case PT_DWORD: case PT_FLAGS: case PT_ORDINAL: { if (!ScanForDWORD( buf, &pParamsHeader->aParams[lLastSel].dwValue )) { // // Default to 0 // pParamsHeader->aParams[lLastSel].dwValue = 0; } break; } } // switch } // Drop thru to IDCANCEL cleanup code case IDCANCEL: EndDialog (hwnd, (int)LOWORD(wParam)); break; case IDC_LIST1: if (HIWORD(wParam) == LBN_SELCHANGE) { char buf[MAX_STRING_PARAM_SIZE] = ""; LPCSTR lpstr = buf; LRESULT lSel = SendMessage (hwndList1, LB_GETCURSEL, 0, 0); if (lLastSel != -1) { // // Save the old param value // i = GetWindowText( hwndCombo, buf, MAX_STRING_PARAM_SIZE - 1 ); switch (pParamsHeader->aParams[lLastSel].dwType) { case PT_STRING: { LRESULT lComboSel; lComboSel = SendMessage (hwndCombo, CB_GETCURSEL, 0,0); if (lComboSel == 0) // "NULL string (dwXxxSize = 0)" { pParamsHeader->aParams[lLastSel].dwValue = 0; } else // "Valid string" or no sel { strncpy( pParamsHeader->aParams[lLastSel].buf, buf, MAX_STRING_PARAM_SIZE - 1 ); pParamsHeader->aParams[lLastSel].buf [MAX_STRING_PARAM_SIZE - 1] = 0; pParamsHeader->aParams[lLastSel].dwValue = (ULONG_PTR) pParamsHeader->aParams[lLastSel].buf; } break; } case PT_DWORD: case PT_FLAGS: case PT_ORDINAL: { if (!ScanForDWORD( buf, &pParamsHeader->aParams[lLastSel].dwValue )) { // // Default to 0 // pParamsHeader->aParams[lLastSel].dwValue = 0; } break; } } // switch } SendMessage (hwndList2, LB_RESETCONTENT, 0, 0); SendMessage (hwndCombo, CB_RESETCONTENT, 0, 0); switch (pParamsHeader->aParams[lSel].dwType) { case PT_STRING: { char * aszOptions[] = { "NUL (dwXxxSize=0)", "Valid string" }; for (i = 0; i < 2; i++) { SendMessage( hwndCombo, CB_INSERTSTRING, (WPARAM) -1, (LPARAM) aszOptions[i] ); } if (pParamsHeader->aParams[lSel].dwValue == 0) { i = 0; buf[0] = 0; } else { i = 1; lpstr = (LPCSTR) pParamsHeader->aParams[lSel].dwValue; } SendMessage (hwndCombo, CB_SETCURSEL, (WPARAM) i, 0); break; } case PT_DWORD: { SendMessage( hwndCombo, CB_INSERTSTRING, (WPARAM) -1, (LPARAM) (char far *) "0000000" ); if (pParamsHeader->aParams[lSel].dwDefValue) { // // Add the default val string to the combo // wsprintfA( buf, "%08lx", pParamsHeader->aParams[lSel].dwDefValue ); SendMessage( hwndCombo, CB_INSERTSTRING, (WPARAM) -1, (LPARAM) buf ); } SendMessage( hwndCombo, CB_INSERTSTRING, (WPARAM) -1, (LPARAM) (char far *) "ffffffff" ); wsprintfA( buf, "%08lx", pParamsHeader->aParams[lSel].dwValue ); break; } case PT_ORDINAL: { // // Stick the bit flag strings in the list box // PLOOKUP pLookup = (PLOOKUP) pParamsHeader->aParams[lSel].pLookup; for (i = 0; pLookup[i].dwVal != 0xffffffff; i++) { SendMessage( hwndList2, LB_INSERTSTRING, (WPARAM) -1, (LPARAM) pLookup[i].lpszVal ); if (pParamsHeader->aParams[lSel].dwValue == pLookup[i].dwVal) { SendMessage( hwndList2, LB_SETSEL, (WPARAM) TRUE, (LPARAM) MAKELPARAM((WORD)i,0) ); } } SendMessage( hwndCombo, CB_INSERTSTRING, (WPARAM) -1, (LPARAM) (char far *) "select none" ); wsprintfA( buf, "%08lx", pParamsHeader->aParams[lSel].dwValue ); break; } case PT_FLAGS: { // // Stick the bit flag strings in the list box // HWND hwndList2 = GetDlgItem (hwnd, IDC_LIST2); PLOOKUP pLookup = (PLOOKUP) pParamsHeader->aParams[lSel].pLookup; for (i = 0; pLookup[i].dwVal != 0xffffffff; i++) { SendMessage( hwndList2, LB_INSERTSTRING, (WPARAM) -1, (LPARAM) pLookup[i].lpszVal ); if (pParamsHeader->aParams[lSel].dwValue & pLookup[i].dwVal) { SendMessage( hwndList2, LB_SETSEL, (WPARAM) TRUE, (LPARAM) MAKELPARAM((WORD)i,0) ); } } SendMessage( hwndCombo, CB_INSERTSTRING, (WPARAM) -1, (LPARAM) (char far *) "select none" ); SendMessage( hwndCombo, CB_INSERTSTRING, (WPARAM) -1, (LPARAM) (char far *) "select all" ); wsprintfA( buf, "%08lx", pParamsHeader->aParams[lSel].dwValue ); break; } } //switch SetWindowText (hwndCombo, lpstr); lLastSel = lSel; } break; case IDC_LIST2: if (HIWORD(wParam) == LBN_SELCHANGE) { // // BUGBUG in the PT_ORDINAL case we should compare the // currently selected item(s) against the previous DWORD // val and figure out which item we need to deselect, // if any, in order to maintain a mutex of values // char buf[16]; LONG i; int far *ai; PLOOKUP pLookup = (PLOOKUP) pParamsHeader->aParams[lLastSel].pLookup; ULONG_PTR dwValue = 0; LRESULT lSelCount = SendMessage (hwndList2, LB_GETSELCOUNT, 0, 0); ai = (int far *) DrvAlloc ((size_t)lSelCount * sizeof(int)); // fix for bug 57371 if (!ai) break; SendMessage( hwndList2, LB_GETSELITEMS, (WPARAM) lSelCount, (LPARAM) ai ); if (pParamsHeader->aParams[lLastSel].dwType == PT_FLAGS) { for (i = 0; i < lSelCount; i++) { dwValue |= pLookup[ai[i]].dwVal; } } else // if (.dwType == PT_ORDINAL) { if (lSelCount == 1) { dwValue = pLookup[ai[0]].dwVal; } else if (lSelCount == 2) { // // Figure out which item we need to de-select, since // we're doing ordinals & only want 1 item selected // at a time // GetWindowText (hwndCombo, buf, 16); if (ScanForDWORD (buf, &dwValue)) { if (pLookup[ai[0]].dwVal == dwValue) { SendMessage( hwndList2, LB_SETSEL, 0, (LPARAM) ai[0] ); dwValue = pLookup[ai[1]].dwVal; } else { SendMessage( hwndList2, LB_SETSEL, 0, (LPARAM) ai[1] ); dwValue = pLookup[ai[0]].dwVal; } } else { // BUGBUG de-select items??? dwValue = 0; } } else if (lSelCount > 2) { // // Determine previous selection & de-select all the // latest selections // GetDlgItemText (hwnd, IDC_COMBO1, buf, 16); if (ScanForDWORD (buf, &dwValue)) { for (i = 0; i < lSelCount; i++) { if (pLookup[ai[i]].dwVal != dwValue) { SendMessage( hwndList2, LB_SETSEL, 0, (LPARAM) ai[i] ); } } } else { // BUGBUG de-select items??? dwValue = 0; } } } DrvFree (ai); wsprintfA (buf, "%08lx", dwValue); SetWindowText (hwndCombo, buf); } break; case IDC_COMBO1: switch (HIWORD(wParam)) { case CBN_SELCHANGE: { LRESULT lSel = SendMessage (hwndCombo, CB_GETCURSEL, 0, 0); switch (pParamsHeader->aParams[lLastSel].dwType) { case PT_ORDINAL: // // The only option here is "select none" // strcpy (szComboText, "00000000"); PostMessage (hwnd, WM_USER+55, 0, 0); break; case PT_FLAGS: { BOOL bSelect = (lSel ? TRUE : FALSE); SendMessage( hwndList2, LB_SETSEL, (WPARAM) bSelect, (LPARAM) -1 ); if (bSelect) { PLOOKUP pLookup = (PLOOKUP) pParamsHeader->aParams[lLastSel].pLookup; DWORD dwValue = 0; int far *ai; LONG i; LRESULT lSelCount = SendMessage (hwndList2, LB_GETSELCOUNT, 0, 0); ai = (int far *) DrvAlloc( (size_t)lSelCount * sizeof(int) ); SendMessage( hwndList2, LB_GETSELITEMS, (WPARAM) lSelCount, (LPARAM) ai ); for (i = 0; i < lSelCount; i++) { dwValue |= pLookup[ai[i]].dwVal; } DrvFree (ai); wsprintfA (szComboText, "%08lx", dwValue); } else { strcpy (szComboText, "00000000"); } PostMessage (hwnd, WM_USER+55, 0, 0); break; } case PT_STRING: if (lSel == 1) { strncpy( szComboText, pParamsHeader->aParams[lLastSel].buf, MAX_STRING_PARAM_SIZE ); szComboText[MAX_STRING_PARAM_SIZE-1] = 0; } else { szComboText[0] = 0; } PostMessage (hwnd, WM_USER+55, 0, 0); break; case PT_DWORD: break; } // switch break; } case CBN_EDITCHANGE: { // // If user entered text in the edit field then copy the // text to our buffer // if (pParamsHeader->aParams[lLastSel].dwType == PT_STRING) { char buf[MAX_STRING_PARAM_SIZE]; GetWindowText (hwndCombo, buf, MAX_STRING_PARAM_SIZE); strncpy( pParamsHeader->aParams[lLastSel].buf, buf, MAX_STRING_PARAM_SIZE ); pParamsHeader->aParams[lLastSel].buf [MAX_STRING_PARAM_SIZE-1] = 0; } break; } } // switch } // switch break; } case WM_USER+55: SetWindowText (hwndCombo, szComboText); break; case WM_CTLCOLORSTATIC: SetBkColor ((HDC) wParam, RGB (192,192,192)); return (INT_PTR) GetStockObject (LTGRAY_BRUSH); case WM_PAINT: { PAINTSTRUCT ps; BeginPaint (hwnd, &ps); FillRect (ps.hdc, &ps.rcPaint, GetStockObject (LTGRAY_BRUSH)); EndPaint (hwnd, &ps); break; } } return FALSE; } BOOL PASCAL IsValidESPAddress( LPCWSTR lpszDestAddress, PDRVLINE *ppLine, LPDWORD pdwAddressID ) { char *pszDestAddress, *p, c; BOOL bResult = FALSE; DWORD length, dwDestLineID, dwAddressID; if (!lpszDestAddress) { return FALSE; } // // Convert destination address from unicode to ascii // length = (lstrlenW (lpszDestAddress) + 1) * sizeof (WCHAR); if (!(pszDestAddress = DrvAlloc (length))) { return FALSE; } WideCharToMultiByte( CP_ACP, 0, lpszDestAddress, -1, pszDestAddress, length, NULL, NULL ); p = pszDestAddress; // // Skip valid junk we don't care about // while ((*p == 'T' || *p == 'P' || *p == ' ') && (*p != '\0')) { p++; } // // See if destination address is in the format of either // "" or "#" // if (*p < '0' || *p > '9') { goto ISESPAddress_freeAddr; } for (dwDestLineID = 0; (c = *p); p++) { if (c >= '0' && c <= '9') { dwDestLineID *= 10; dwDestLineID += ((DWORD)(c - '0')); } else { break; } } if (c != '\0' && c != '#') { goto ISESPAddress_freeAddr; } if (dwDestLineID < gESPGlobals.dwLineDeviceIDBase || dwDestLineID >= (gESPGlobals.dwNumLines + gESPGlobals.dwLineDeviceIDBase)) { goto ISESPAddress_freeAddr; } if (c == '\0') { *pdwAddressID = 0; goto ISESPAddress_success; } p++; if (*p < '0' || *p > '9') { goto ISESPAddress_freeAddr; } for (dwAddressID = 0; (c = *p); p++) { if (c >= '0' && c <= '9') { dwAddressID *= 10; dwAddressID += ((DWORD)(c - '0')); } else { break; } } if (c != '\0' || dwAddressID >= gESPGlobals.dwNumAddressesPerLine) { goto ISESPAddress_freeAddr; } *pdwAddressID = dwAddressID; ISESPAddress_success: *ppLine = GetLineFromID (dwDestLineID); bResult = TRUE; ISESPAddress_freeAddr: DrvFree (pszDestAddress); return bResult; } LONG PASCAL CreateIncomingCall( LPCWSTR lpszDestAddress, LPLINECALLPARAMS lpCallParams, PDRVCALL pOutgoingCall, BOOL *pbValidESPAddress, PDRVLINE *ppIncomingLine, PDRVCALL *ppIncomingCall ) { LONG lResult; DWORD dwIncomingAddressID; PDRVCALL pIncomingCall; PDRVLINE pIncomingLine; LINECALLPARAMS callParams; *pbValidESPAddress = FALSE; *ppIncomingLine = NULL; *ppIncomingCall = NULL; if (!IsValidESPAddress( lpszDestAddress, &pIncomingLine, &dwIncomingAddressID )) { return LINEERR_INVALADDRESS; } *pbValidESPAddress = TRUE; if (pIncomingLine->htLine == NULL || (pOutgoingCall && !(pIncomingLine->dwMediaModes & pOutgoingCall->dwMediaMode))) { return LINEERR_INVALMEDIAMODE; } if (!lpCallParams) { lpCallParams = &callParams; ZeroMemory (&callParams, sizeof (LINECALLPARAMS)); callParams.dwTotalSize = sizeof (LINECALLPARAMS); if (pIncomingLine->dwMediaModes) callParams.dwMediaMode = pIncomingLine->dwMediaModes; else callParams.dwMediaMode = LINEMEDIAMODE_INTERACTIVEVOICE; callParams.dwBearerMode = LINEBEARERMODE_VOICE; } lpCallParams->dwAddressMode = LINEADDRESSMODE_ADDRESSID; lpCallParams->dwAddressID = dwIncomingAddressID; if ((lResult = AllocCall( pIncomingLine, 0, lpCallParams, &pIncomingCall )) == 0) { if (pOutgoingCall) { pOutgoingCall->pDestCall = pIncomingCall; pIncomingCall->pDestCall = pOutgoingCall; pIncomingCall->dwCallID = pOutgoingCall->dwCallID; pIncomingCall->dwRelatedCallID = pOutgoingCall->dwRelatedCallID; } *ppIncomingLine = pIncomingLine; *ppIncomingCall = pIncomingCall; } else { ShowStr( TRUE, "lineMakeCall couldn't create incoming call on" \ "line/addr id %d/%d, exceeded max calls per line/addr", pIncomingLine->dwDeviceID, dwIncomingAddressID ); } return lResult; } void FAR PASCAL TransferCall_postProcess( PASYNC_REQUEST_INFO pAsyncReqInfo, BOOL bAsync ) { DWORD dwCallInstThen = (DWORD) pAsyncReqInfo->dwParam2, dwValidCurrentCallStates = (DWORD) pAsyncReqInfo->dwParam5, dwNewCallState = (DWORD) pAsyncReqInfo->dwParam6, dwCallInstNow; PDRVCALL pCall = (PDRVCALL) pAsyncReqInfo->dwParam1, pDestCall = (PDRVCALL) pAsyncReqInfo->dwParam4; PDRVLINE pDestLine = (PDRVLINE) pAsyncReqInfo->dwParam3; DoCompletion (pAsyncReqInfo, bAsync); if (pAsyncReqInfo->lResult == 0) { if ((pAsyncReqInfo->lResult = SetCallState( pCall, dwCallInstThen, dwValidCurrentCallStates, LINECALLSTATE_IDLE, 0, TRUE )) != 0) { goto TSPI_lineBlindTransfer_postProcess_freeDestCall; } if (pDestCall) { EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, &dwCallInstNow) && dwCallInstNow == dwCallInstThen) { SendLineEvent( pDestLine, NULL, LINE_NEWCALL, (ULONG_PTR) pDestCall, (ULONG_PTR) &pDestCall->htCall, 0 ); if (pDestCall->htCall) { SetCallState( pDestCall, pDestCall->dwCallInstance, 0xffffffff, dwNewCallState, 0, TRUE ); } else { FreeCall (pDestCall, pDestCall->dwCallInstance); } } else { FreeCall (pDestCall, pDestCall->dwCallInstance); } LeaveCriticalSection (&gESPGlobals.CallListCritSec); } } else { TSPI_lineBlindTransfer_postProcess_freeDestCall: if (pDestCall) { FreeCall (pDestCall, pDestCall->dwCallInstance); } } } LONG PASCAL TransferCall( PFUNC_INFO pInfo, PDRVCALL pCall, DWORD dwValidCurrentCallStates, DWORD dwNewCallState, // initial call state of new incoming call LPCWSTR lpszDestAddress ) { BOOL bValidESPAddress; LONG lResult = 0; PDRVLINE pDestLine; PDRVCALL pDestCall; EnterCriticalSection (&gESPGlobals.CallListCritSec); if (IsValidDrvCall (pCall, NULL) == FALSE) { lResult = LINEERR_INVALCALLHANDLE; } else if ((pCall->dwCallState & dwValidCurrentCallStates) == 0) { lResult = LINEERR_INVALCALLSTATE; } else { PDRVCALL pDestCallOrig = pCall->pDestCall; LINECALLPARAMS callParams; if (IsValidDrvCall (pDestCallOrig, NULL) == FALSE) { pDestCallOrig = NULL; } ZeroMemory (&callParams, sizeof (LINECALLPARAMS)); callParams.dwTotalSize = sizeof (LINECALLPARAMS); callParams.dwMediaMode = pCall->dwMediaMode; callParams.dwBearerMode = pCall->dwBearerMode; callParams.dwMinRate = pCall->dwMinRate; callParams.dwMaxRate = pCall->dwMaxRate; if (CreateIncomingCall( lpszDestAddress, &callParams, pDestCallOrig, &bValidESPAddress, &pDestLine, &pDestCall ) == 0) { pCall->pDestCall = NULL; if (pCall->dwCallDataSize && (pDestCall->pCallData = DrvAlloc (pCall->dwCallDataSize))) { CopyMemory( pDestCall->pCallData, pCall->pCallData, (pDestCall->dwCallDataSize = pCall->dwCallDataSize) ); } } pInfo->pAsyncReqInfo->pfnPostProcessProc = (FARPROC) TransferCall_postProcess; pInfo->pAsyncReqInfo->dwParam1 = (ULONG_PTR) pCall; pInfo->pAsyncReqInfo->dwParam2 = (ULONG_PTR) pCall->dwCallInstance; pInfo->pAsyncReqInfo->dwParam3 = (ULONG_PTR) pDestLine; pInfo->pAsyncReqInfo->dwParam4 = (ULONG_PTR) pDestCall; pInfo->pAsyncReqInfo->dwParam5 = (ULONG_PTR) dwValidCurrentCallStates; pInfo->pAsyncReqInfo->dwParam6 = (ULONG_PTR) dwNewCallState; } LeaveCriticalSection (&gESPGlobals.CallListCritSec); return lResult; }